!=============================================================================== ! Chillers.idf ! ! This dataset includes object types for Chiller:Electric:EIR and Chiller:Electric:ReformulatedEIR ! and associated performance curves. ! ! Summary Table for Electric EIR Chiller reference data sets (Ref. CoolTools project). ! Chillers are listed in order of compressor type and reference capacity (model calibration ! point). Reference capacity and COP do not necessarily indicate rated capacity and COP at ! standard rating conditions (e.g. ARI Standard 550/590). ! ! Performance curves developed from information collected over a 10-year period from 1991 to 2001. ! ! Compressor Reference Reference Unloading ! Chiller Name Type Capacity COP Mechanism ! kW (tons) ! ElectricEIRChiller McQuay WSC 471kW/5.89COP/Vanes Centrifugal 471 (134) 5.89 Inlet Vanes ! ElectricEIRChiller York YT 563kW/10.61COP/Vanes Centrifugal 563 (160) 10.61 Inlet Vanes ! ElectricEIRChiller McQuay PEH 703kW/7.03COP/Vanes Centrifugal 703 (200) 7.03 Inlet Vanes ! ElectricEIRChiller Carrier 23XL 724kW/6.04COP/Vanes Centrifugal 724 (206) 6.04 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD Centrifugal 742 (211) 5.42 VSD ! ElectricEIRChiller McQuay WSC 816kW/6.74COP/Vanes Centrifugal 816 (232) 6.74 Inlet Vanes ! ElectricEIRChiller McQuay PEH 819kW/8.11COP/Vanes Centrifugal 819 (233) 8.11 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 823kW/6.28COP/Vanes Centrifugal 823 (234) 6.28 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 869kW/5.57COP/VSD Centrifugal 869 (247) 5.57 VSD ! ElectricEIRChiller Carrier 19XR 897kW/7.23COP/VSD Centrifugal 897 (255) 7.23 VSD ! ElectricEIRChiller Carrier 19XR 897kW/6.50COP/Vanes Centrifugal 897 (255) 6.50 Inlet Vanes ! ElectricEIRChiller York YT 897kW/7.60COP/VSD Centrifugal 897 (255) 7.60 VSD ! ElectricEIRChiller York YT 897kW/6.27COP/VSD Centrifugal 897 (255) 6.27 VSD ! ElectricEIRChiller Carrier 19XR 897kW/6.23COP/VSD Centrifugal 897 (255) 6.23 VSD ! ElectricEIRChiller McQuay PFH 932kW/5.09COP/Vanes Centrifugal 932 (265) 5.09 Inlet Vanes ! ElectricEIRChiller York YT 960kW/4.64COP/Vanes Centrifugal 960 (273) 4.64 Inlet Vanes ! ElectricEIRChiller York YT 1023kW/5.81COP/Vanes Centrifugal 1023 (291) 5.81 Inlet Vanes ! ElectricEIRChiller McQuay PEH 1030kW/8.58COP/Vanes Centrifugal 1030 (293) 8.58 Inlet Vanes ! ElectricEIRChiller York YT 1048kW/6.06COP/Vanes Centrifugal 1048 (298) 6.06 Inlet Vanes ! ElectricEIRChiller York YT 1055kW/5.96COP/Vanes Centrifugal 1055 (300) 5.96 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes Centrifugal 1076 (306) 5.52 Inlet Vanes ! ElectricEIRChiller Trane CVHE 1080kW/7.39COP/Vanes Centrifugal 1080 (307) 7.39 Inlet Vanes ! ElectricEIRChiller York YT 1090kW/7.57COP/VSD Centrifugal 1090 (310) 7.57 VSD ! ElectricEIRChiller McQuay PEH 1104kW/8.00COP/Vanes Centrifugal 1104 (314) 8.00 Inlet Vanes ! ElectricEIRChiller York YT 1125kW/7.92COP/VSD Centrifugal 1125 (320) 7.92 VSD ! ElectricEIRChiller Trane CVHE 1125kW/4.89COP/Vanes Centrifugal 1125 (320) 4.89 Inlet Vanes ! ElectricEIRChiller York YT 1125kW/7.92COP/VSD Centrifugal 1125 (320) 7.92 VSD ! ElectricEIRChiller Trane CVHE 1129kW/7.19COP/Vanes Centrifugal 1129 (321) 7.19 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1143kW/6.57COP/VSD Centrifugal 1143 (325) 6.57 VSD ! ElectricEIRChiller Carrier 19XR 1157kW/5.62COP/VSD Centrifugal 1157 (329) 5.62 VSD ! ElectricEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes Centrifugal 1196 (340) 6.50 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes Centrifugal 1213 (345) 7.78 Inlet Vanes ! ElectricEIRChiller McQuay PEH 1231kW/6.18COP/Vanes Centrifugal 1231 (350) 6.18 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1234kW/5.39COP/VSD Centrifugal 1234 (351) 5.39 VSD ! ElectricEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes Centrifugal 1259 (358) 6.26 Inlet Vanes ! ElectricEIRChiller York YK 1259kW/6.45COP/Vanes Centrifugal 1259 (358) 6.45 Inlet Vanes ! ElectricEIRChiller York YT 1266kW/4.39COP/Vanes Centrifugal 1266 (360) 4.39 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes Centrifugal 1284 (365) 6.20 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes Centrifugal 1294 (368) 7.61 Inlet Vanes ! ElectricEIRChiller Trane CVHE 1329kW/5.38COP/Vanes Centrifugal 1329 (378) 5.38 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1350kW/7.90COP/VSD Centrifugal 1350 (384) 7.90 VSD ! ElectricEIRChiller York YT 1368kW/7.35COP/VSD Centrifugal 1368 (389) 7.35 VSD ! ElectricEIRChiller Trane CVHE 1372kW/7.49COP/Vanes Centrifugal 1372 (390) 7.49 Inlet Vanes ! ElectricEIRChiller York YT 1396kW/7.35COP/Vanes Centrifugal 1396 (397) 7.35 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1403kW/7.09COP/VSD Centrifugal 1403 (399) 7.09 VSD ! ElectricEIRChiller York YT 1403kW/6.94COP/VSD Centrifugal 1403 (399) 6.94 VSD ! ElectricEIRChiller Trane CVHE 1407kW/7.14COP/VSD Centrifugal 1407 (400) 7.14 VSD ! ElectricEIRChiller McQuay PFH 1407kW/6.60COP/Vanes Centrifugal 1407 (400) 6.60 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1407kW/6.04COP/VSD Centrifugal 1407 (400) 6.04 VSD ! ElectricEIRChiller Carrier 19XR 1410kW/8.54COP/VSD Centrifugal 1410 (401) 8.54 VSD ! ElectricEIRChiller Trane CVHE 1442kW/6.61COP/VSD Centrifugal 1442 (410) 6.61 VSD ! ElectricEIRChiller York YT 1459kW/6.40COP/VSD Centrifugal 1459 (415) 6.40 VSD ! ElectricEIRChiller Trane CVHE 1484kW/9.96COP/VSD Centrifugal 1484 (422) 9.96 VSD ! ElectricEIRChiller York YT 1495kW/7.51COP/VSD Centrifugal 1495 (425) 7.51 VSD ! ElectricEIRChiller McQuay WSC 1519kW/7.10COP/Vanes Centrifugal 1519 (432) 7.10 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1558kW/5.81COP/VSD Centrifugal 1558 (443) 5.81 VSD ! ElectricEIRChiller Carrier 19XR 1586kW/5.53COP/VSD Centrifugal 1586 (451) 5.53 VSD ! ElectricEIRChiller McQuay PEH 1635kW/7.47COP/Vanes Centrifugal 1635 (465) 7.47 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes Centrifugal 1635 (465) 6.36 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1656kW/8.24COP/VSD Centrifugal 1656 (471) 8.24 VSD ! ElectricEIRChiller York YT 1663kW/9.34COP/Vanes Centrifugal 1663 (473) 9.34 Inlet Vanes ! ElectricEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes Centrifugal 1674 (476) 7.89 Inlet Vanes ! ElectricEIRChiller Trane CVHF 1681kW/6.59COP/Vanes Centrifugal 1681 (478) 6.59 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD Centrifugal 1723 (490) 8.32 VSD ! ElectricEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes Centrifugal 1727 (491) 9.04 Inlet Vanes ! ElectricEIRChiller McQuay WSC 1751kW/6.73COP/Vanes Centrifugal 1751 (498) 6.73 Inlet Vanes ! ElectricEIRChiller Trane CVHF 1758kW/5.96COP/Vanes Centrifugal 1758 (500) 5.96 Inlet Vanes ! ElectricEIRChiller York YT 1758kW/5.76COP/VSD Centrifugal 1758 (500) 5.76 VSD ! ElectricEIRChiller York YT 1758kW/6.26COP/Vanes Centrifugal 1758 (500) 6.26 Inlet Vanes ! ElectricEIRChiller York YT 1758kW/5.96COP/Vanes Centrifugal 1758 (500) 5.96 Inlet Vanes ! ElectricEIRChiller Trane CVHE 1758kW/5.96COP/Vanes Centrifugal 1758 (500) 5.96 Inlet Vanes ! ElectricEIRChiller York YT 1758kW/6.28COP/Vanes Centrifugal 1758 (500) 6.28 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1758kW/5.86COP/VSD Centrifugal 1758 (500) 5.86 VSD ! ElectricEIRChiller Trane CVHF 1758kW/6.46COP/VSD Centrifugal 1758 (500) 6.46 VSD ! ElectricEIRChiller Trane CVHF 1758kW/6.87COP/Vanes Centrifugal 1758 (500) 6.87 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes Centrifugal 1776 (505) 8.00 Inlet Vanes ! ElectricEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes Centrifugal 1779 (506) 6.18 Inlet Vanes ! ElectricEIRChiller Trane CVHF 1779kW/6.18COP/Vanes Centrifugal 1779 (506) 6.18 Inlet Vanes ! ElectricEIRChiller York YT 1794kW/8.11COP/Vanes Centrifugal 1794 (510) 8.11 Inlet Vanes ! ElectricEIRChiller York YT 1794kW/7.90COP/VSD Centrifugal 1794 (510) 7.90 VSD ! ElectricEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes Centrifugal 1797 (511) 5.69 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 1801kW/6.34COP/VSD Centrifugal 1801 (512) 6.34 VSD ! ElectricEIRChiller York YT 1867kW/10.09COP/Vanes Centrifugal 1867 (531) 10.09 Inlet Vanes ! ElectricEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes Centrifugal 1871 (532) 6.49 Inlet Vanes ! ElectricEIRChiller York YT 1881kW/6.77COP/VSD Centrifugal 1881 (535) 6.77 VSD ! ElectricEIRChiller York YK 1881kW/6.53COP/Vanes Centrifugal 1881 (535) 6.53 Inlet Vanes ! ElectricEIRChiller York YK 1881kW/6.53COP/Vanes Centrifugal 1881 (535) 6.53 Inlet Vanes ! ElectricEIRChiller McQuay PEH 1895kW/6.42COP/Vanes Centrifugal 1895 (539) 6.42 Inlet Vanes ! ElectricEIRChiller York YT 1934kW/7.55COP/Vanes Centrifugal 1934 (550) 7.55 Inlet Vanes ! ElectricEIRChiller McQuay PEH 1934kW/6.01COP/Vanes Centrifugal 1934 (550) 6.01 Inlet Vanes ! ElectricEIRChiller McQuay WDC 1973kW/6.28COP/Vanes Centrifugal 1973 (561) 6.28 Inlet Vanes ! ElectricEIRChiller York YK 1997kW/7.24COP/Vanes Centrifugal 1997 (568) 7.24 Inlet Vanes ! ElectricEIRChiller McQuay PFH 2043kW/8.44COP/Vanes Centrifugal 2043 (581) 8.44 Inlet Vanes ! ElectricEIRChiller Trane CVHF 2043kW/9.08COP/Vanes Centrifugal 2043 (581) 9.08 Inlet Vanes ! ElectricEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes Centrifugal 2057 (585) 6.05 Inlet Vanes ! ElectricEIRChiller York YT 2110kW/7.15COP/Vanes Centrifugal 2110 (600) 7.15 Inlet Vanes ! ElectricEIRChiller McQuay PFH 2124kW/6.03COP/Vanes Centrifugal 2124 (604) 6.03 Inlet Vanes ! ElectricEIRChiller York YK 2159kW/6.85COP/Vanes Centrifugal 2159 (614) 6.85 Inlet Vanes ! ElectricEIRChiller Trane CVHF 2184kW/6.78COP/Vanes Centrifugal 2184 (621) 6.78 Inlet Vanes ! ElectricEIRChiller York YK 2201kW/6.69COP/Vanes Centrifugal 2201 (626) 6.69 Inlet Vanes ! ElectricEIRChiller York YT 2233kW/9.54COP/VSD Centrifugal 2233 (635) 9.54 VSD ! ElectricEIRChiller York YT 2233kW/9.54COP/VSD Centrifugal 2233 (635) 9.54 VSD ! ElectricEIRChiller York YK 2237kW/6.41COP/Vanes Centrifugal 2237 (636) 6.41 Inlet Vanes ! ElectricEIRChiller York YK 2275kW/6.32COP/Vanes Centrifugal 2275 (647) 6.32 Inlet Vanes ! ElectricEIRChiller York YK 2275kW/6.32COP/Vanes Centrifugal 2275 (647) 6.32 Inlet Vanes ! ElectricEIRChiller Trane CVHF 2300kW/8.10COP/Vanes Centrifugal 2300 (654) 8.10 Inlet Vanes ! ElectricEIRChiller Trane CVHF 2317kW/6.33COP/VSD Centrifugal 2317 (659) 6.33 VSD ! ElectricEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes Centrifugal 2391 (680) 6.77 Inlet Vanes ! ElectricEIRChiller Carrier 19XR 2391kW/6.44COP/VSD Centrifugal 2391 (680) 6.44 VSD ! ElectricEIRChiller York YK 2412kW/5.58COP/Vanes Centrifugal 2412 (686) 5.58 Inlet Vanes ! ElectricEIRChiller McQuay PFH 2462kW/6.67COP/Vanes Centrifugal 2462 (700) 6.67 Inlet Vanes ! ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD Centrifugal 2567 (730) 11.77 VSD ! ElectricEIRChiller York YK 2771kW/6.84COP/VSD Centrifugal 2771 (788) 6.84 VSD ! ElectricEIRChiller Trane CVHF 2799kW/6.40COP/Vanes Centrifugal 2799 (796) 6.40 Inlet Vanes ! ElectricEIRChiller York YT 3133kW/9.16COP/Vanes Centrifugal 3133 (891) 9.16 Inlet Vanes ! ElectricEIRChiller McQuay PFH 3165kW/6.48COP/Vanes Centrifugal 3165 (900) 6.48 Inlet Vanes ! ElectricEIRChiller McQuay PFH 4020kW/7.35COP/Vanes Centrifugal 4020 (1143) 7.35 Inlet Vanes ! ElectricEIRChiller York YK 4396kW/6.63COP/Vanes Centrifugal 4396 (1250) 6.63 Inlet Vanes ! ElectricEIRChiller York YK 4477kW/6.64COP/Vanes Centrifugal 4477 (1273) 6.64 Inlet Vanes ! ElectricEIRChiller York YK 4515kW/6.22COP/Vanes Centrifugal 4515 (1284) 6.22 Inlet Vanes ! ElectricEIRChiller York YK 4537kW/6.28COP/Vanes Centrifugal 4537 (1290) 6.28 Inlet Vanes ! ElectricEIRChiller Trane CVHF 4610kW/6.34COP/Vanes Centrifugal 4610 (1311) 6.34 Inlet Vanes ! ElectricEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes Centrifugal 4667 (1327) 6.16 Inlet Vanes ! ElectricEIRChiller Trane CVHF 4677kW/6.27COP/Vanes Centrifugal 4677 (1330) 6.27 Inlet Vanes ! ElectricEIRChiller York YK 4966kW/6.05COP/Vanes Centrifugal 4966 (1412) 6.05 Inlet Vanes ! ElectricEIRChiller York YK 4969kW/7.14COP/Vanes Centrifugal 4969 (1413) 7.14 Inlet Vanes ! ElectricEIRChiller York YK 4969kW/7.07COP/Vanes Centrifugal 4969 (1413) 7.07 Inlet Vanes ! ElectricEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes Centrifugal 4997 (1421) 6.40 Inlet Vanes ! ElectricEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes Centrifugal 5148 (1464) 6.34 Inlet Vanes ! ElectricEIRChiller York YK 5170kW/7.15COP/Vanes Centrifugal 5170 (1470) 7.15 Inlet Vanes ! ElectricEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes Centrifugal 5208 (1481) 6.88 Inlet Vanes ! ElectricEIRChiller York YK 5465kW/6.94COP/Vanes Centrifugal 5465 (1554) 6.94 Inlet Vanes ! ElectricEIRChiller York YK 5549kW/6.50COP/Vanes Centrifugal 5549 (1578) 6.50 Inlet Vanes ! ElectricEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes Centrifugal 5651 (1607) 5.50 Inlet Vanes ! ElectricEIRChiller DOE-2 Centrifugal/5.50COP Centrifugal Autosize 5.50 NA ! ElectricEIRChiller Multistack MS 172kW/3.67COP/None Reciprocating 172 (49) 3.67 None ! ElectricEIRChiller DOE-2 Reciprocating/3.67COP Reciprocating Autosize 3.67 NA ! ElectricEIRChiller Trane RTWA 383kW/4.17COP/Valve Screw 383 (109) 4.17 Slide Valve ! ElectricEIRChiller Trane RTHB 531kW/4.83COP/Valve Screw 531 (151) 4.83 Slide Valve ! ElectricEIRChiller Trane RTHB 538kW/5.12COP/Valve Screw 538 (153) 5.12 Slide Valve ! ElectricEIRChiller Trane RTHB 542kW/5.26COP/Valve Screw 542 (154) 5.26 Slide Valve ! ElectricEIRChiller York YS 672kW/7.90COP/Valve Screw 672 (191) 7.90 Slide Valve ! ElectricEIRChiller Carrier 23XL 686kW/5.91COP/Valve Screw 686 (195) 5.91 Slide Valve ! ElectricEIRChiller Trane RTHC 707kW/7.77COP/Valve Screw 707 (201) 7.77 Slide Valve ! ElectricEIRChiller York YS 756kW/7.41COP/Valve Screw 756 (215) 7.41 Slide Valve ! ElectricEIRChiller York YS 781kW/5.42COP/Valve Screw 781 (222) 5.42 Slide Valve ! ElectricEIRChiller Carrier 23XL 830kW/6.97COP/Valve Screw 830 (236) 6.97 Slide Valve ! ElectricEIRChiller Carrier 23XL 862kW/6.11COP/Valve Screw 862 (245) 6.11 Slide Valve ! ElectricEIRChiller Carrier 23XL 862kW/6.84COP/Valve Screw 862 (245) 6.84 Slide Valve ! ElectricEIRChiller Carrier 23XL 865kW/6.05COP/Valve Screw 865 (246) 6.05 Slide Valve ! ElectricEIRChiller York YS 879kW/5.82COP/Valve Screw 879 (250) 5.82 Slide Valve ! ElectricEIRChiller Trane RTHC 1009kW/5.37COP/Valve Screw 1009 (287) 5.37 Slide Valve ! ElectricEIRChiller Trane RTHB 1051kW/5.05COP/Valve Screw 1051 (299) 5.05 Slide Valve ! ElectricEIRChiller Carrier 23XL 1062kW/5.50COP/Valve Screw 1062 (302) 5.50 Slide Valve ! ElectricEIRChiller Trane RTHC 1066kW/5.73COP/Valve Screw 1066 (303) 5.73 Slide Valve ! ElectricEIRChiller Trane RTHC 1094kW/6.55COP/Valve Screw 1094 (311) 6.55 Slide Valve ! ElectricEIRChiller Carrier 23XL 1108kW/6.92COP/Valve Screw 1108 (315) 6.92 Slide Valve ! ElectricEIRChiller York YS 1171kW/9.15COP/Valve Screw 1171 (333) 9.15 Slide Valve ! ElectricEIRChiller Carrier 23XL 1196kW/6.39COP/Valve Screw 1196 (340) 6.39 Slide Valve ! ElectricEIRChiller York YS 1554kW/9.31COP/Valve Screw 1554 (442) 9.31 Slide Valve ! ElectricEIRChiller York YS 1758kW/5.84COP/Valve Screw 1758 (500) 5.84 Slide Valve ! ElectricEIRChiller Trane CGWD 207kW/3.99COP/None Scroll 207 (59) 3.99 None ! ElectricEIRChiller McQuay WSC 471kW/5.89COP/Vanes ! Manufacturer = McQuay, Model Line = WSC ! Reference Capacity = 471 kW (134 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! The objects and syntax in this dataset comply with EnergyPlus, Version 8.4.0 and above, unless otherwise noted. ! Version, ! 9.0; !- Version Identifier Chiller:Electric:EIR, ElectricEIRChiller McQuay WSC 471kW/5.89COP/Vanes, !- Name 471200, !- Reference Capacity {W} 5.89, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.01035, !- Reference Chilled Water Flow Rate {m3/s} 0.01924, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay WSC 471kW/5.89COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay WSC 471kW/5.89COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay WSC 471kW/5.89COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.15, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay WSC 471kW/5.89COP/Vanes CAPFT, !- Name 2.521130E-01, !- Coefficient1 Constant 1.324053E-02, !- Coefficient2 x -8.637329E-03, !- Coefficient3 x**2 8.581056E-02, !- Coefficient4 y -4.261176E-03, !- Coefficient5 y**2 8.661899E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay WSC 471kW/5.89COP/Vanes EIRFT, !- Name 4.475238E-01, !- Coefficient1 Constant -2.588210E-02, !- Coefficient2 x -1.459053E-03, !- Coefficient3 x**2 4.342595E-02, !- Coefficient4 y -1.000651E-03, !- Coefficient5 y**2 1.920106E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay WSC 471kW/5.89COP/Vanes EIRFPLR, !- Name 2.778889E-01, !- Coefficient1 Constant 2.338363E-01, !- Coefficient2 x 4.883748E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.15; !- Maximum Value of x ! ElectricEIRChiller York YT 563kW/10.61COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 563 kW (160 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 563kW/10.61COP/Vanes, !- Name 562600, !- Reference Capacity {W} 10.61, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.01514, !- Reference Chilled Water Flow Rate {m3/s} 0.0241, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 563kW/10.61COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 563kW/10.61COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 563kW/10.61COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 563kW/10.61COP/Vanes CAPFT, !- Name -1.288612E-01, !- Coefficient1 Constant -8.919540E-02, !- Coefficient2 x -2.190195E-03, !- Coefficient3 x**2 1.538357E-01, !- Coefficient4 y -5.129402E-03, !- Coefficient5 y**2 7.813636E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 563kW/10.61COP/Vanes EIRFT, !- Name -5.781003E-01, !- Coefficient1 Constant -1.169130E-01, !- Coefficient2 x -4.760535E-03, !- Coefficient3 x**2 2.230082E-01, !- Coefficient4 y -5.313649E-03, !- Coefficient5 y**2 6.846644E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 563kW/10.61COP/Vanes EIRFPLR, !- Name 5.203969E-01, !- Coefficient1 Constant -7.775900E-01, !- Coefficient2 x 1.255394E+00, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller McQuay PEH 703kW/7.03COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 703 kW (200 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PEH 703kW/7.03COP/Vanes, !- Name 703300, !- Reference Capacity {W} 7.03, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 22.78, !- Reference Entering Condenser Fluid Temperature {C} 0.02019, !- Reference Chilled Water Flow Rate {m3/s} 0.02902, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PEH 703kW/7.03COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 703kW/7.03COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 703kW/7.03COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 703kW/7.03COP/Vanes CAPFT, !- Name 4.779439E-01, !- Coefficient1 Constant 1.073486E-01, !- Coefficient2 x -1.055896E-02, !- Coefficient3 x**2 4.208433E-02, !- Coefficient4 y -2.346870E-03, !- Coefficient5 y**2 4.019632E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 703kW/7.03COP/Vanes EIRFT, !- Name 8.234029E-01, !- Coefficient1 Constant -1.171542E-01, !- Coefficient2 x 5.869351E-04, !- Coefficient3 x**2 2.964642E-02, !- Coefficient4 y -9.190377E-04, !- Coefficient5 y**2 5.035796E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PEH 703kW/7.03COP/Vanes EIRFPLR, !- Name 3.864389E-01, !- Coefficient1 Constant -2.522595E-01, !- Coefficient2 x 8.672354E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Carrier 23XL 724kW/6.04COP/Vanes ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 724 kW (206 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 23XL 724kW/6.04COP/Vanes, !- Name 724400, !- Reference Capacity {W} 6.04, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 21.11, !- Reference Entering Condenser Fluid Temperature {C} 0.01779, !- Reference Chilled Water Flow Rate {m3/s} 0.01956, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 23XL 724kW/6.04COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 724kW/6.04COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 724kW/6.04COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 724kW/6.04COP/Vanes CAPFT, !- Name 4.418712E-01, !- Coefficient1 Constant -8.384251E-02, !- Coefficient2 x -2.190707E-03, !- Coefficient3 x**2 8.594633E-02, !- Coefficient4 y -3.322575E-03, !- Coefficient5 y**2 6.652189E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 13.75, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 724kW/6.04COP/Vanes EIRFT, !- Name 5.059102E-01, !- Coefficient1 Constant -1.621557E-02, !- Coefficient2 x 3.346388E-04, !- Coefficient3 x**2 2.350906E-02, !- Coefficient4 y 3.514201E-04, !- Coefficient5 y**2 -6.342981E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 13.75, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 23XL 724kW/6.04COP/Vanes EIRFPLR, !- Name 1.879418E-01, !- Coefficient1 Constant 3.562862E-01, !- Coefficient2 x 4.540392E-01, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 742 kW (211 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD, !- Name 742000, !- Reference Capacity {W} 5.42, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 21.11, !- Reference Entering Condenser Fluid Temperature {C} 0.01779, !- Reference Chilled Water Flow Rate {m3/s} 0.01956, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD CAPFT, !- Name 9.797101E-01, !- Coefficient1 Constant -2.895701E-03, !- Coefficient2 x -8.970718E-04, !- Coefficient3 x**2 1.031440E-02, !- Coefficient4 y -7.431651E-04, !- Coefficient5 y**2 1.453508E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 11.25, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD EIRFT, !- Name 9.946139E-01, !- Coefficient1 Constant -4.829399E-02, !- Coefficient2 x 4.674277E-04, !- Coefficient3 x**2 -1.158726E-03, !- Coefficient4 y 5.762583E-04, !- Coefficient5 y**2 2.148192E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 11.25, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD EIRFPLR, !- Name 1.202277E-01, !- Coefficient1 Constant 1.396384E-01, !- Coefficient2 x 7.394038E-01, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller McQuay WSC 816kW/6.74COP/Vanes ! Manufacturer = McQuay, Model Line = WSC ! Reference Capacity = 816 kW (232 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay WSC 816kW/6.74COP/Vanes, !- Name 815800, !- Reference Capacity {W} 6.74, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.01748, !- Reference Chilled Water Flow Rate {m3/s} 0.04164, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay WSC 816kW/6.74COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay WSC 816kW/6.74COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay WSC 816kW/6.74COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay WSC 816kW/6.74COP/Vanes CAPFT, !- Name 9.862590E-01, !- Coefficient1 Constant 5.799373E-02, !- Coefficient2 x -5.355626E-03, !- Coefficient3 x**2 -8.941705E-04, !- Coefficient4 y -1.670098E-03, !- Coefficient5 y**2 4.733054E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay WSC 816kW/6.74COP/Vanes EIRFT, !- Name 7.335321E-01, !- Coefficient1 Constant 4.465107E-04, !- Coefficient2 x -3.448575E-03, !- Coefficient3 x**2 3.770822E-03, !- Coefficient4 y -2.189675E-04, !- Coefficient5 y**2 2.400267E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay WSC 816kW/6.74COP/Vanes EIRFPLR, !- Name 3.070136E-01, !- Coefficient1 Constant 8.654874E-02, !- Coefficient2 x 6.081551E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller McQuay PEH 819kW/8.11COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 819 kW (233 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PEH 819kW/8.11COP/Vanes, !- Name 819300, !- Reference Capacity {W} 8.11, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.02524, !- Reference Chilled Water Flow Rate {m3/s} 0.03785, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PEH 819kW/8.11COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 819kW/8.11COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 819kW/8.11COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 819kW/8.11COP/Vanes CAPFT, !- Name 7.392673E-01, !- Coefficient1 Constant 4.328784E-02, !- Coefficient2 x -4.529446E-03, !- Coefficient3 x**2 1.525410E-02, !- Coefficient4 y -1.141458E-03, !- Coefficient5 y**2 2.651124E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 819kW/8.11COP/Vanes EIRFT, !- Name 5.925176E-01, !- Coefficient1 Constant -1.908391E-02, !- Coefficient2 x -1.852692E-03, !- Coefficient3 x**2 4.051551E-02, !- Coefficient4 y -2.908719E-04, !- Coefficient5 y**2 1.059047E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PEH 819kW/8.11COP/Vanes EIRFPLR, !- Name 2.830681E-01, !- Coefficient1 Constant 2.254147E-01, !- Coefficient2 x 4.916649E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 823kW/6.28COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 823 kW (234 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 823kW/6.28COP/Vanes, !- Name 822900, !- Reference Capacity {W} 6.28, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.04744, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 823kW/6.28COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 823kW/6.28COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 823kW/6.28COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 823kW/6.28COP/Vanes CAPFT, !- Name 5.573150E-01, !- Coefficient1 Constant 8.714616E-02, !- Coefficient2 x -2.917582E-03, !- Coefficient3 x**2 2.500000E-02, !- Coefficient4 y -8.861538E-04, !- Coefficient5 y**2 -3.184615E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 823kW/6.28COP/Vanes EIRFT, !- Name 8.029134E-01, !- Coefficient1 Constant 2.171359E-02, !- Coefficient2 x 2.388123E-04, !- Coefficient3 x**2 -1.096173E-02, !- Coefficient4 y 1.065277E-03, !- Coefficient5 y**2 -2.057538E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 823kW/6.28COP/Vanes EIRFPLR, !- Name 2.965419E-01, !- Coefficient1 Constant 4.689744E-01, !- Coefficient2 x 2.332341E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 869kW/5.57COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 869 kW (247 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = N/A ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 869kW/5.57COP/VSD, !- Name 868600, !- Reference Capacity {W} 5.57, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.01754, !- Reference Chilled Water Flow Rate {m3/s} 0.02593, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 869kW/5.57COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 869kW/5.57COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 869kW/5.57COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 869kW/5.57COP/VSD CAPFT, !- Name 5.406799E-01, !- Coefficient1 Constant 1.253709E-01, !- Coefficient2 x -8.025360E-03, !- Coefficient3 x**2 -7.357554E-03, !- Coefficient4 y -4.477789E-04, !- Coefficient5 y**2 2.140733E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 869kW/5.57COP/VSD EIRFT, !- Name 3.943721E-01, !- Coefficient1 Constant 1.079147E-01, !- Coefficient2 x -8.912223E-03, !- Coefficient3 x**2 -3.229487E-04, !- Coefficient4 y 1.302402E-05, !- Coefficient5 y**2 1.561862E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 869kW/5.57COP/VSD EIRFPLR, !- Name 1.501042E-01, !- Coefficient1 Constant -6.804336E-02, !- Coefficient2 x 9.171460E-01, !- Coefficient3 x**2 0.18, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 897kW/7.23COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 897 kW (255 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 897kW/7.23COP/VSD, !- Name 896700, !- Reference Capacity {W} 7.23, !- Reference COP {W/W} 9.82, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.0436, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 897kW/7.23COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 897kW/7.23COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 897kW/7.23COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 897kW/7.23COP/VSD CAPFT, !- Name 5.559679E-01, !- Coefficient1 Constant 7.630860E-02, !- Coefficient2 x -1.431181E-03, !- Coefficient3 x**2 2.167593E-02, !- Coefficient4 y -6.233447E-04, !- Coefficient5 y**2 -9.876498E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 897kW/7.23COP/VSD EIRFT, !- Name 6.511011E-01, !- Coefficient1 Constant 4.948557E-02, !- Coefficient2 x -8.152733E-04, !- Coefficient3 x**2 2.322946E-02, !- Coefficient4 y 1.990802E-04, !- Coefficient5 y**2 -2.669401E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 897kW/7.23COP/VSD EIRFPLR, !- Name 2.036380E-01, !- Coefficient1 Constant -3.913200E-01, !- Coefficient2 x 1.187172E+00, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 897kW/6.50COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 897 kW (255 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 897kW/6.50COP/Vanes, !- Name 896700, !- Reference Capacity {W} 6.50, !- Reference COP {W/W} 9.82, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.04423, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 897kW/6.50COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 897kW/6.50COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 897kW/6.50COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 897kW/6.50COP/Vanes CAPFT, !- Name 7.009156E-01, !- Coefficient1 Constant 2.151274E-02, !- Coefficient2 x -6.029650E-04, !- Coefficient3 x**2 1.864266E-02, !- Coefficient4 y -1.084545E-03, !- Coefficient5 y**2 1.418575E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 897kW/6.50COP/Vanes EIRFT, !- Name 8.527749E-01, !- Coefficient1 Constant -4.336881E-03, !- Coefficient2 x 8.972177E-04, !- Coefficient3 x**2 -1.888039E-03, !- Coefficient4 y 8.648075E-04, !- Coefficient5 y**2 -1.438797E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 897kW/6.50COP/Vanes EIRFPLR, !- Name 3.323416E-01, !- Coefficient1 Constant 2.561103E-01, !- Coefficient2 x 4.106954E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YT 897kW/7.60COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 897 kW (255 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 897kW/7.60COP/VSD, !- Name 896700, !- Reference Capacity {W} 7.60, !- Reference COP {W/W} 9.83, !- Reference Leaving Chilled Water Temperature {C} 22.78, !- Reference Entering Condenser Fluid Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 897kW/7.60COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 897kW/7.60COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 897kW/7.60COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 897kW/7.60COP/VSD CAPFT, !- Name 5.699948E-01, !- Coefficient1 Constant 2.961470E-02, !- Coefficient2 x -1.064930E-03, !- Coefficient3 x**2 3.062313E-02, !- Coefficient4 y -1.753205E-03, !- Coefficient5 y**2 2.142105E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 897kW/7.60COP/VSD EIRFT, !- Name 5.526128E-01, !- Coefficient1 Constant 3.299472E-03, !- Coefficient2 x -7.981925E-04, !- Coefficient3 x**2 4.245710E-02, !- Coefficient4 y -3.533658E-04, !- Coefficient5 y**2 -9.415137E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 897kW/7.60COP/VSD EIRFPLR, !- Name 4.708628E-02, !- Coefficient1 Constant 7.070062E-02, !- Coefficient2 x 8.802198E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YT 897kW/6.27COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 897 kW (255 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 897kW/6.27COP/VSD, !- Name 896700, !- Reference Capacity {W} 6.27, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 22.78, !- Reference Entering Condenser Fluid Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 897kW/6.27COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 897kW/6.27COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 897kW/6.27COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 897kW/6.27COP/VSD CAPFT, !- Name 1.197991E-01, !- Coefficient1 Constant 1.568955E-01, !- Coefficient2 x -4.426242E-03, !- Coefficient3 x**2 3.449640E-02, !- Coefficient4 y -8.163597E-04, !- Coefficient5 y**2 -2.236230E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 897kW/6.27COP/VSD EIRFT, !- Name 5.530767E-01, !- Coefficient1 Constant -5.683068E-02, !- Coefficient2 x 4.423475E-03, !- Coefficient3 x**2 6.472411E-02, !- Coefficient4 y -7.378933E-04, !- Coefficient5 y**2 -2.491202E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 897kW/6.27COP/VSD EIRFPLR, !- Name 9.836320E-02, !- Coefficient1 Constant -1.638320E-02, !- Coefficient2 x 9.127289E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 897kW/6.23COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 897 kW (255 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 897kW/6.23COP/VSD, !- Name 896700, !- Reference Capacity {W} 6.23, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.04442, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 897kW/6.23COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 897kW/6.23COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 897kW/6.23COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 897kW/6.23COP/VSD CAPFT, !- Name 8.862185E-01, !- Coefficient1 Constant 3.144947E-02, !- Coefficient2 x 2.328997E-04, !- Coefficient3 x**2 1.339712E-03, !- Coefficient4 y -2.923430E-04, !- Coefficient5 y**2 2.320709E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 897kW/6.23COP/VSD EIRFT, !- Name 8.606461E-01, !- Coefficient1 Constant -1.202294E-03, !- Coefficient2 x 9.398625E-04, !- Coefficient3 x**2 2.983262E-03, !- Coefficient4 y 4.119228E-04, !- Coefficient5 y**2 -1.123884E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 897kW/6.23COP/VSD EIRFPLR, !- Name 2.075556E-01, !- Coefficient1 Constant -2.126466E-01, !- Coefficient2 x 1.004182E+00, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller McQuay PFH 932kW/5.09COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 932 kW (265 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PFH 932kW/5.09COP/Vanes, !- Name 931900, !- Reference Capacity {W} 5.09, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.03785, !- Reference Chilled Water Flow Rate {m3/s} 0.04732, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PFH 932kW/5.09COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 932kW/5.09COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 932kW/5.09COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 932kW/5.09COP/Vanes CAPFT, !- Name 1.182278E+00, !- Coefficient1 Constant 3.259490E-02, !- Coefficient2 x -3.904288E-03, !- Coefficient3 x**2 4.579721E-03, !- Coefficient4 y -1.028178E-03, !- Coefficient5 y**2 2.855063E-03, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 932kW/5.09COP/Vanes EIRFT, !- Name 6.053491E-01, !- Coefficient1 Constant -1.089778E-02, !- Coefficient2 x -1.511327E-03, !- Coefficient3 x**2 1.902687E-02, !- Coefficient4 y -1.910750E-04, !- Coefficient5 y**2 9.008184E-04, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PFH 932kW/5.09COP/Vanes EIRFPLR, !- Name 6.823245E-02, !- Coefficient1 Constant 6.672421E-01, !- Coefficient2 x 2.654211E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YT 960kW/4.64COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 960 kW (273 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 960kW/4.64COP/Vanes, !- Name 960000, !- Reference Capacity {W} 4.64, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.03785, !- Reference Chilled Water Flow Rate {m3/s} 0.04732, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 960kW/4.64COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 960kW/4.64COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 960kW/4.64COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.09, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 960kW/4.64COP/Vanes CAPFT, !- Name -2.278537E-01, !- Coefficient1 Constant 4.055945E-01, !- Coefficient2 x -3.246694E-02, !- Coefficient3 x**2 3.788230E-03, !- Coefficient4 y -2.236584E-04, !- Coefficient5 y**2 6.715520E-04, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 960kW/4.64COP/Vanes EIRFT, !- Name 5.735924E-01, !- Coefficient1 Constant 2.270414E-02, !- Coefficient2 x -3.331832E-03, !- Coefficient3 x**2 6.025574E-03, !- Coefficient4 y 3.245033E-04, !- Coefficient5 y**2 3.229690E-05, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 960kW/4.64COP/Vanes EIRFPLR, !- Name 2.737941E-01, !- Coefficient1 Constant 3.141127E-01, !- Coefficient2 x 4.113671E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.09; !- Maximum Value of x ! ElectricEIRChiller York YT 1023kW/5.81COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1023 kW (291 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1023kW/5.81COP/Vanes, !- Name 1023300, !- Reference Capacity {W} 5.81, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.02366, !- Reference Chilled Water Flow Rate {m3/s} 0.04732, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1023kW/5.81COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1023kW/5.81COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1023kW/5.81COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1023kW/5.81COP/Vanes CAPFT, !- Name 2.571195E-01, !- Coefficient1 Constant -1.571421E-02, !- Coefficient2 x -3.041761E-03, !- Coefficient3 x**2 8.106512E-02, !- Coefficient4 y -2.568598E-03, !- Coefficient5 y**2 4.247073E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1023kW/5.81COP/Vanes EIRFT, !- Name 5.254964E-01, !- Coefficient1 Constant -1.972389E-02, !- Coefficient2 x 3.441072E-04, !- Coefficient3 x**2 1.651466E-02, !- Coefficient4 y 2.005198E-04, !- Coefficient5 y**2 -3.193246E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1023kW/5.81COP/Vanes EIRFPLR, !- Name 2.368399E-01, !- Coefficient1 Constant 3.286421E-01, !- Coefficient2 x 4.344939E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller McQuay PEH 1030kW/8.58COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1030 kW (293 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PEH 1030kW/8.58COP/Vanes, !- Name 1030300, !- Reference Capacity {W} 8.58, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.02378, !- Reference Chilled Water Flow Rate {m3/s} 0.03407, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PEH 1030kW/8.58COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1030kW/8.58COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1030kW/8.58COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.08, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.08, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1030kW/8.58COP/Vanes CAPFT, !- Name 7.736028E-01, !- Coefficient1 Constant 5.571395E-02, !- Coefficient2 x -3.058312E-03, !- Coefficient3 x**2 -1.789007E-04, !- Coefficient4 y -9.808878E-04, !- Coefficient5 y**2 2.123462E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1030kW/8.58COP/Vanes EIRFT, !- Name 7.125878E-01, !- Coefficient1 Constant 1.388940E-02, !- Coefficient2 x -2.473407E-03, !- Coefficient3 x**2 2.096719E-02, !- Coefficient4 y -1.566098E-04, !- Coefficient5 y**2 6.035460E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PEH 1030kW/8.58COP/Vanes EIRFPLR, !- Name 3.215320E-01, !- Coefficient1 Constant -9.188416E-03, !- Coefficient2 x 6.881582E-01, !- Coefficient3 x**2 0.08, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YT 1048kW/6.06COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1048 kW (298 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1048kW/6.06COP/Vanes, !- Name 1047900, !- Reference Capacity {W} 6.06, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.04542, !- Reference Chilled Water Flow Rate {m3/s} 0.05678, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1048kW/6.06COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1048kW/6.06COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1048kW/6.06COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1048kW/6.06COP/Vanes CAPFT, !- Name 7.238221E-01, !- Coefficient1 Constant 1.747548E-02, !- Coefficient2 x -4.524718E-03, !- Coefficient3 x**2 2.138468E-02, !- Coefficient4 y -9.342801E-04, !- Coefficient5 y**2 2.515069E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1048kW/6.06COP/Vanes EIRFT, !- Name 7.255594E-01, !- Coefficient1 Constant -3.502968E-02, !- Coefficient2 x 2.213476E-03, !- Coefficient3 x**2 3.925410E-03, !- Coefficient4 y 5.538176E-04, !- Coefficient5 y**2 -8.638012E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1048kW/6.06COP/Vanes EIRFPLR, !- Name 1.543796E-01, !- Coefficient1 Constant 7.276121E-01, !- Coefficient2 x 1.162393E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller York YT 1055kW/5.96COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1055 kW (300 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1055kW/5.96COP/Vanes, !- Name 1055000, !- Reference Capacity {W} 5.96, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.02839, !- Reference Chilled Water Flow Rate {m3/s} 0.05678, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1055kW/5.96COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1055kW/5.96COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1055kW/5.96COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1055kW/5.96COP/Vanes CAPFT, !- Name 1.785912E-01, !- Coefficient1 Constant -5.900023E-02, !- Coefficient2 x -5.946963E-04, !- Coefficient3 x**2 9.297889E-02, !- Coefficient4 y -2.841024E-03, !- Coefficient5 y**2 4.974221E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1055kW/5.96COP/Vanes EIRFT, !- Name 5.245110E-01, !- Coefficient1 Constant -2.850126E-02, !- Coefficient2 x 8.034720E-04, !- Coefficient3 x**2 1.893133E-02, !- Coefficient4 y 1.151629E-04, !- Coefficient5 y**2 -9.340642E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1055kW/5.96COP/Vanes EIRFPLR, !- Name 2.619878E-01, !- Coefficient1 Constant 2.393605E-01, !- Coefficient2 x 4.988306E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1076 kW (306 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes, !- Name 1076100, !- Reference Capacity {W} 5.52, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 24.89, !- Reference Entering Condenser Fluid Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.04744, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes CAPFT, !- Name 9.187704E-01, !- Coefficient1 Constant 4.509452E-02, !- Coefficient2 x -5.119187E-03, !- Coefficient3 x**2 -2.095629E-04, !- Coefficient4 y -6.432511E-04, !- Coefficient5 y**2 2.791545E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes EIRFT, !- Name 7.511044E-01, !- Coefficient1 Constant 2.415573E-02, !- Coefficient2 x -5.310959E-03, !- Coefficient3 x**2 -1.073812E-03, !- Coefficient4 y 1.189538E-04, !- Coefficient5 y**2 1.604476E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes EIRFPLR, !- Name 1.315760E-01, !- Coefficient1 Constant -3.004087E-02, !- Coefficient2 x 8.967180E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Trane CVHE 1080kW/7.39COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1080 kW (307 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHE 1080kW/7.39COP/Vanes, !- Name 1079600, !- Reference Capacity {W} 7.39, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.61, !- Reference Entering Condenser Fluid Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.06416, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHE 1080kW/7.39COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1080kW/7.39COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1080kW/7.39COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1080kW/7.39COP/Vanes CAPFT, !- Name 4.365583E-01, !- Coefficient1 Constant -3.677215E-02, !- Coefficient2 x -2.779781E-03, !- Coefficient3 x**2 6.063060E-02, !- Coefficient4 y -2.290704E-03, !- Coefficient5 y**2 5.115883E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 16.24, !- Minimum Value of y 23.61; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1080kW/7.39COP/Vanes EIRFT, !- Name 3.608716E-01, !- Coefficient1 Constant -5.637178E-02, !- Coefficient2 x -3.428415E-04, !- Coefficient3 x**2 4.230087E-02, !- Coefficient4 y -4.391632E-04, !- Coefficient5 y**2 1.517182E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 16.24, !- Minimum Value of y 23.61; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHE 1080kW/7.39COP/Vanes EIRFPLR, !- Name 1.789841E-01, !- Coefficient1 Constant 2.976513E-01, !- Coefficient2 x 5.243235E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller York YT 1090kW/7.57COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1090 kW (310 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1090kW/7.57COP/VSD, !- Name 1090100, !- Reference Capacity {W} 7.57, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 22.78, !- Reference Entering Condenser Fluid Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1090kW/7.57COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1090kW/7.57COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1090kW/7.57COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1090kW/7.57COP/VSD CAPFT, !- Name 6.769028E-01, !- Coefficient1 Constant 5.711844E-02, !- Coefficient2 x -6.072310E-04, !- Coefficient3 x**2 1.656541E-02, !- Coefficient4 y -8.087831E-04, !- Coefficient5 y**2 2.303904E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1090kW/7.57COP/VSD EIRFT, !- Name 9.241019E-01, !- Coefficient1 Constant -4.961574E-02, !- Coefficient2 x 1.291675E-04, !- Coefficient3 x**2 3.299013E-02, !- Coefficient4 y -6.769477E-04, !- Coefficient5 y**2 1.692815E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1090kW/7.57COP/VSD EIRFPLR, !- Name 1.431969E-01, !- Coefficient1 Constant -4.920686E-01, !- Coefficient2 x 1.341333E+00, !- Coefficient3 x**2 0.14, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller McQuay PEH 1104kW/8.00COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1104 kW (314 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PEH 1104kW/8.00COP/Vanes, !- Name 1104200, !- Reference Capacity {W} 8.00, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.02423, !- Reference Chilled Water Flow Rate {m3/s} 0.03028, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PEH 1104kW/8.00COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1104kW/8.00COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1104kW/8.00COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.08, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.08, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1104kW/8.00COP/Vanes CAPFT, !- Name 8.210185E-01, !- Coefficient1 Constant 4.386152E-02, !- Coefficient2 x -1.521829E-03, !- Coefficient3 x**2 -4.314921E-03, !- Coefficient4 y -7.251667E-04, !- Coefficient5 y**2 1.497681E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1104kW/8.00COP/Vanes EIRFT, !- Name 8.655242E-01, !- Coefficient1 Constant -3.808337E-04, !- Coefficient2 x -1.320050E-03, !- Coefficient3 x**2 1.137834E-02, !- Coefficient4 y -4.095120E-05, !- Coefficient5 y**2 6.531102E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PEH 1104kW/8.00COP/Vanes EIRFPLR, !- Name 3.091150E-01, !- Coefficient1 Constant -1.089639E-02, !- Coefficient2 x 7.022967E-01, !- Coefficient3 x**2 0.08, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YT 1125kW/7.92COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1125 kW (320 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1125kW/7.92COP/VSD, !- Name 1125300, !- Reference Capacity {W} 7.92, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.03243, !- Reference Chilled Water Flow Rate {m3/s} 0.05173, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1125kW/7.92COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1125kW/7.92COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1125kW/7.92COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1125kW/7.92COP/VSD CAPFT, !- Name 1.034212E-01, !- Coefficient1 Constant 2.327078E-03, !- Coefficient2 x -9.117035E-04, !- Coefficient3 x**2 9.104793E-02, !- Coefficient4 y -2.678967E-03, !- Coefficient5 y**2 2.274649E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1125kW/7.92COP/VSD EIRFT, !- Name 6.542286E-01, !- Coefficient1 Constant -2.451604E-02, !- Coefficient2 x 1.253508E-03, !- Coefficient3 x**2 4.216477E-02, !- Coefficient4 y 1.404867E-04, !- Coefficient5 y**2 -1.508780E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1125kW/7.92COP/VSD EIRFPLR, !- Name 1.147453E-01, !- Coefficient1 Constant 4.231235E-02, !- Coefficient2 x 8.419681E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Trane CVHE 1125kW/4.89COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1125 kW (320 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHE 1125kW/4.89COP/Vanes, !- Name 1125300, !- Reference Capacity {W} 4.89, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.02776, !- Reference Chilled Water Flow Rate {m3/s} 0.02618, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHE 1125kW/4.89COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1125kW/4.89COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1125kW/4.89COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1125kW/4.89COP/Vanes CAPFT, !- Name 6.151549E-01, !- Coefficient1 Constant -1.181250E-02, !- Coefficient2 x -1.491630E-03, !- Coefficient3 x**2 3.326625E-02, !- Coefficient4 y -9.315000E-04, !- Coefficient5 y**2 1.771875E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1125kW/4.89COP/Vanes EIRFT, !- Name 5.810580E-01, !- Coefficient1 Constant -4.344257E-02, !- Coefficient2 x -5.369108E-04, !- Coefficient3 x**2 2.844405E-02, !- Coefficient4 y -1.609390E-04, !- Coefficient5 y**2 7.004346E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHE 1125kW/4.89COP/Vanes EIRFPLR, !- Name 1.807198E-01, !- Coefficient1 Constant -1.469686E-01, !- Coefficient2 x 9.658417E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller York YT 1125kW/7.92COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1125 kW (320 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1125kW/7.92COP/VSD_2, !- Name 1125300, !- Reference Capacity {W} 7.92, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.03243, !- Reference Chilled Water Flow Rate {m3/s} 0.05173, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1125kW/7.92COP/VSD CAPFT_2, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1125kW/7.92COP/VSD EIRFT_2, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1125kW/7.92COP/VSD EIRFPLR_2, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1125kW/7.92COP/VSD CAPFT_2, !- Name 1.034212E-01, !- Coefficient1 Constant 2.327078E-03, !- Coefficient2 x -9.117035E-04, !- Coefficient3 x**2 9.104793E-02, !- Coefficient4 y -2.678967E-03, !- Coefficient5 y**2 2.274649E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1125kW/7.92COP/VSD EIRFT_2, !- Name 6.542286E-01, !- Coefficient1 Constant -2.451604E-02, !- Coefficient2 x 1.253508E-03, !- Coefficient3 x**2 4.216477E-02, !- Coefficient4 y 1.404867E-04, !- Coefficient5 y**2 -1.508780E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1125kW/7.92COP/VSD EIRFPLR_2, !- Name 1.147453E-01, !- Coefficient1 Constant 4.231235E-02, !- Coefficient2 x 8.419681E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Trane CVHE 1129kW/7.19COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1129 kW (321 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHE 1129kW/7.19COP/Vanes, !- Name 1128800, !- Reference Capacity {W} 7.19, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.02776, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHE 1129kW/7.19COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1129kW/7.19COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1129kW/7.19COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.15, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.15, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1129kW/7.19COP/Vanes CAPFT, !- Name 3.922479E-01, !- Coefficient1 Constant -4.388411E-02, !- Coefficient2 x -2.748665E-03, !- Coefficient3 x**2 6.894954E-02, !- Coefficient4 y -2.563738E-03, !- Coefficient5 y**2 5.420187E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1129kW/7.19COP/Vanes EIRFT, !- Name 3.742142E-01, !- Coefficient1 Constant -5.536709E-02, !- Coefficient2 x -8.199663E-04, !- Coefficient3 x**2 4.655032E-02, !- Coefficient4 y -7.312591E-04, !- Coefficient5 y**2 1.887184E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHE 1129kW/7.19COP/Vanes EIRFPLR, !- Name 1.693841E-01, !- Coefficient1 Constant 2.475201E-01, !- Coefficient2 x 5.836059E-01, !- Coefficient3 x**2 0.15, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1143kW/6.57COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1143 kW (325 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1143kW/6.57COP/VSD, !- Name 1142900, !- Reference Capacity {W} 6.57, !- Reference COP {W/W} 10.00, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.02593, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1143kW/6.57COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1143kW/6.57COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1143kW/6.57COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1143kW/6.57COP/VSD CAPFT, !- Name 7.939538E-01, !- Coefficient1 Constant 4.096493E-02, !- Coefficient2 x -1.419397E-03, !- Coefficient3 x**2 -1.639813E-03, !- Coefficient4 y -5.220497E-04, !- Coefficient5 y**2 1.348786E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1143kW/6.57COP/VSD EIRFT, !- Name 9.475580E-01, !- Coefficient1 Constant -1.187942E-02, !- Coefficient2 x 8.799326E-05, !- Coefficient3 x**2 2.250775E-04, !- Coefficient4 y 1.815775E-04, !- Coefficient5 y**2 2.178409E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1143kW/6.57COP/VSD EIRFPLR, !- Name 1.408822E-01, !- Coefficient1 Constant -1.578153E-01, !- Coefficient2 x 1.014316E+00, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1157kW/5.62COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1157 kW (329 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1157kW/5.62COP/VSD, !- Name 1156900, !- Reference Capacity {W} 5.62, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 21.11, !- Reference Entering Condenser Fluid Temperature {C} 0.02801, !- Reference Chilled Water Flow Rate {m3/s} 0.03186, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1157kW/5.62COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1157kW/5.62COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1157kW/5.62COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1157kW/5.62COP/VSD CAPFT, !- Name 1.076248E+00, !- Coefficient1 Constant 5.436724E-03, !- Coefficient2 x -3.893302E-04, !- Coefficient3 x**2 -4.353310E-03, !- Coefficient4 y -2.402031E-04, !- Coefficient5 y**2 8.409080E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 11.25, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1157kW/5.62COP/VSD EIRFT, !- Name 1.075567E+00, !- Coefficient1 Constant -3.893571E-02, !- Coefficient2 x 1.082499E-03, !- Coefficient3 x**2 -5.782829E-03, !- Coefficient4 y 6.574492E-04, !- Coefficient5 y**2 -5.302886E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 11.25, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1157kW/5.62COP/VSD EIRFPLR, !- Name 1.608589E-01, !- Coefficient1 Constant -2.058215E-01, !- Coefficient2 x 1.043133E+00, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1196 kW (340 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes, !- Name 1195600, !- Reference Capacity {W} 6.50, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.03426, !- Reference Chilled Water Flow Rate {m3/s} 0.04252, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes CAPFT, !- Name 1.126801E+00, !- Coefficient1 Constant -4.220591E-03, !- Coefficient2 x -2.002964E-03, !- Coefficient3 x**2 7.360880E-03, !- Coefficient4 y -1.156890E-03, !- Coefficient5 y**2 3.064875E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes EIRFT, !- Name 9.514432E-01, !- Coefficient1 Constant -2.252147E-02, !- Coefficient2 x -1.062456E-05, !- Coefficient3 x**2 -1.383194E-04, !- Coefficient4 y 3.914644E-04, !- Coefficient5 y**2 8.126485E-05, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes EIRFPLR, !- Name 2.724491E-01, !- Coefficient1 Constant 2.710369E-01, !- Coefficient2 x 4.552356E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1213 kW (345 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes, !- Name 1213200, !- Reference Capacity {W} 7.78, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.03243, !- Reference Chilled Water Flow Rate {m3/s} 0.04782, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes CAPFT, !- Name 9.070437E-01, !- Coefficient1 Constant -7.437456E-03, !- Coefficient2 x -9.695325E-04, !- Coefficient3 x**2 1.529092E-02, !- Coefficient4 y -1.069664E-03, !- Coefficient5 y**2 1.994583E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes EIRFT, !- Name 1.002142E+00, !- Coefficient1 Constant -2.505239E-02, !- Coefficient2 x 5.169707E-04, !- Coefficient3 x**2 6.321862E-03, !- Coefficient4 y 5.116807E-04, !- Coefficient5 y**2 -4.794244E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes EIRFPLR, !- Name 2.847744E-01, !- Coefficient1 Constant 4.027863E-01, !- Coefficient2 x 3.114896E-01, !- Coefficient3 x**2 0.17, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller McQuay PEH 1231kW/6.18COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1231 kW (350 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PEH 1231kW/6.18COP/Vanes, !- Name 1230800, !- Reference Capacity {W} 6.18, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 22.78, !- Reference Entering Condenser Fluid Temperature {C} 0.03533, !- Reference Chilled Water Flow Rate {m3/s} 0.0511, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PEH 1231kW/6.18COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1231kW/6.18COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1231kW/6.18COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1231kW/6.18COP/Vanes CAPFT, !- Name 1.152795E+00, !- Coefficient1 Constant 9.770474E-02, !- Coefficient2 x -6.719705E-03, !- Coefficient3 x**2 -2.123401E-02, !- Coefficient4 y -3.641998E-04, !- Coefficient5 y**2 1.473439E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1231kW/6.18COP/Vanes EIRFT, !- Name 8.067591E-01, !- Coefficient1 Constant 1.868314E-02, !- Coefficient2 x -5.569088E-03, !- Coefficient3 x**2 -4.309148E-03, !- Coefficient4 y 1.373034E-04, !- Coefficient5 y**2 2.394081E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PEH 1231kW/6.18COP/Vanes EIRFPLR, !- Name 2.117054E-01, !- Coefficient1 Constant 4.263662E-01, !- Coefficient2 x 3.614654E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1234kW/5.39COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1234 kW (351 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = N/A ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1234kW/5.39COP/VSD, !- Name 1234300, !- Reference Capacity {W} 5.39, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.02593, !- Reference Chilled Water Flow Rate {m3/s} 0.03861, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1234kW/5.39COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1234kW/5.39COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1234kW/5.39COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1234kW/5.39COP/VSD CAPFT, !- Name 5.905815E-01, !- Coefficient1 Constant 1.190927E-01, !- Coefficient2 x -6.727309E-03, !- Coefficient3 x**2 -9.580836E-03, !- Coefficient4 y -3.034704E-04, !- Coefficient5 y**2 1.540686E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1234kW/5.39COP/VSD EIRFT, !- Name 3.771659E-01, !- Coefficient1 Constant 1.144965E-01, !- Coefficient2 x -8.186893E-03, !- Coefficient3 x**2 -3.372584E-03, !- Coefficient4 y 1.689440E-04, !- Coefficient5 y**2 1.008523E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1234kW/5.39COP/VSD EIRFPLR, !- Name 1.495681E-01, !- Coefficient1 Constant -1.449639E-01, !- Coefficient2 x 9.941070E-01, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1259 kW (358 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes, !- Name 1258900, !- Reference Capacity {W} 6.26, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.02593, !- Reference Chilled Water Flow Rate {m3/s} 0.03823, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes CAPFT, !- Name 1.082071E+00, !- Coefficient1 Constant 3.200888E-02, !- Coefficient2 x -3.994780E-03, !- Coefficient3 x**2 -5.789604E-03, !- Coefficient4 y -8.238938E-04, !- Coefficient5 y**2 2.933539E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes EIRFT, !- Name 7.582035E-01, !- Coefficient1 Constant 6.896017E-03, !- Coefficient2 x -1.491911E-03, !- Coefficient3 x**2 2.249459E-03, !- Coefficient4 y 3.908697E-04, !- Coefficient5 y**2 -1.735265E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes EIRFPLR, !- Name 2.226232E-01, !- Coefficient1 Constant 5.199282E-01, !- Coefficient2 x 2.578470E-01, !- Coefficient3 x**2 0.18, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YK 1259kW/6.45COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 1259 kW (358 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 1259kW/6.45COP/Vanes, !- Name 1258900, !- Reference Capacity {W} 6.45, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.02631, !- Reference Chilled Water Flow Rate {m3/s} 0.06246, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 1259kW/6.45COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 1259kW/6.45COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 1259kW/6.45COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 1259kW/6.45COP/Vanes CAPFT, !- Name 9.609200E-01, !- Coefficient1 Constant 7.223733E-02, !- Coefficient2 x -1.693471E-03, !- Coefficient3 x**2 2.543722E-03, !- Coefficient4 y -6.415570E-04, !- Coefficient5 y**2 -3.028540E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 1259kW/6.45COP/Vanes EIRFT, !- Name 8.991536E-01, !- Coefficient1 Constant 6.305932E-03, !- Coefficient2 x -3.756374E-04, !- Coefficient3 x**2 -1.952076E-02, !- Coefficient4 y 1.381302E-03, !- Coefficient5 y**2 -1.615004E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 1259kW/6.45COP/Vanes EIRFPLR, !- Name 1.014593E-01, !- Coefficient1 Constant 6.216537E-01, !- Coefficient2 x 2.780213E-01, !- Coefficient3 x**2 0.18, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YT 1266kW/4.39COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1266 kW (360 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1266kW/4.39COP/Vanes, !- Name 1266000, !- Reference Capacity {W} 4.39, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 35.00, !- Reference Entering Condenser Fluid Temperature {C} 0.03533, !- Reference Chilled Water Flow Rate {m3/s} 0.05773, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1266kW/4.39COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1266kW/4.39COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1266kW/4.39COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.11, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.11, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1266kW/4.39COP/Vanes CAPFT, !- Name 1.285663E-01, !- Coefficient1 Constant -2.860032E-02, !- Coefficient2 x -1.369319E-03, !- Coefficient3 x**2 6.676366E-02, !- Coefficient4 y -1.510647E-03, !- Coefficient5 y**2 2.947167E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1266kW/4.39COP/Vanes EIRFT, !- Name 8.284925E-02, !- Coefficient1 Constant 4.206167E-02, !- Coefficient2 x -5.254555E-03, !- Coefficient3 x**2 1.964407E-02, !- Coefficient4 y 1.070646E-04, !- Coefficient5 y**2 2.298241E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1266kW/4.39COP/Vanes EIRFPLR, !- Name 7.326942E-01, !- Coefficient1 Constant -7.962527E-01, !- Coefficient2 x 1.059148E+00, !- Coefficient3 x**2 0.11, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1284 kW (365 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes, !- Name 1283500, !- Reference Capacity {W} 6.20, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 22.78, !- Reference Entering Condenser Fluid Temperature {C} 0.03684, !- Reference Chilled Water Flow Rate {m3/s} 0.05337, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes CAPFT, !- Name 1.119245E+00, !- Coefficient1 Constant -1.524417E-02, !- Coefficient2 x -1.074186E-03, !- Coefficient3 x**2 -1.260169E-03, !- Coefficient4 y -4.380237E-04, !- Coefficient5 y**2 2.027779E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes EIRFT, !- Name 7.815645E-01, !- Coefficient1 Constant -2.448971E-02, !- Coefficient2 x 1.644370E-03, !- Coefficient3 x**2 5.564580E-03, !- Coefficient4 y 5.800428E-04, !- Coefficient5 y**2 -1.086993E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes EIRFPLR, !- Name 2.324812E-01, !- Coefficient1 Constant 7.690691E-01, !- Coefficient2 x -6.532223E-04, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1294 kW (368 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes, !- Name 1294100, !- Reference Capacity {W} 7.61, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.03243, !- Reference Chilled Water Flow Rate {m3/s} 0.04732, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.16, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.16, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes CAPFT, !- Name 9.274222E-01, !- Coefficient1 Constant 1.278683E-02, !- Coefficient2 x -1.621880E-03, !- Coefficient3 x**2 2.816339E-03, !- Coefficient4 y -7.658105E-04, !- Coefficient5 y**2 1.881968E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes EIRFT, !- Name 1.085249E+00, !- Coefficient1 Constant -9.441252E-04, !- Coefficient2 x -2.505100E-03, !- Coefficient3 x**2 -8.724367E-03, !- Coefficient4 y 4.164780E-04, !- Coefficient5 y**2 8.473746E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes EIRFPLR, !- Name 9.344563E-02, !- Coefficient1 Constant 3.993002E-01, !- Coefficient2 x 5.087169E-01, !- Coefficient3 x**2 0.16, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Trane CVHE 1329kW/5.38COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1329 kW (378 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHE 1329kW/5.38COP/Vanes, !- Name 1329300, !- Reference Capacity {W} 5.38, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.04732, !- Reference Chilled Water Flow Rate {m3/s} 0.07098, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHE 1329kW/5.38COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1329kW/5.38COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1329kW/5.38COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.29, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.29, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1329kW/5.38COP/Vanes CAPFT, !- Name 5.339754E-01, !- Coefficient1 Constant 1.016009E-01, !- Coefficient2 x -3.979592E-03, !- Coefficient3 x**2 1.261254E-02, !- Coefficient4 y -4.666667E-04, !- Coefficient5 y**2 -8.351648E-05, !- Coefficient6 x*y 6.11, !- Minimum Value of x 10.00, !- Maximum Value of x 21.11, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1329kW/5.38COP/Vanes EIRFT, !- Name 8.074052E-01, !- Coefficient1 Constant 3.355495E-02, !- Coefficient2 x -1.549617E-03, !- Coefficient3 x**2 -7.142554E-03, !- Coefficient4 y 5.056363E-04, !- Coefficient5 y**2 -7.547786E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 10.00, !- Maximum Value of x 21.11, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHE 1329kW/5.38COP/Vanes EIRFPLR, !- Name 4.079777E-02, !- Coefficient1 Constant 1.174456E+00, !- Coefficient2 x -2.212711E-01, !- Coefficient3 x**2 0.29, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1350kW/7.90COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1350 kW (384 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1350kW/7.90COP/VSD, !- Name 1350400, !- Reference Capacity {W} 7.90, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.03684, !- Reference Chilled Water Flow Rate {m3/s} 0.05337, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1350kW/7.90COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1350kW/7.90COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1350kW/7.90COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1350kW/7.90COP/VSD CAPFT, !- Name 1.063866E+00, !- Coefficient1 Constant -1.448990E-02, !- Coefficient2 x -1.021036E-03, !- Coefficient3 x**2 -1.197817E-03, !- Coefficient4 y -4.163507E-04, !- Coefficient5 y**2 1.927446E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1350kW/7.90COP/VSD EIRFT, !- Name 9.953536E-01, !- Coefficient1 Constant -3.118863E-02, !- Coefficient2 x 2.094171E-03, !- Coefficient3 x**2 7.086716E-03, !- Coefficient4 y 7.387078E-04, !- Coefficient5 y**2 -1.384330E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1350kW/7.90COP/VSD EIRFPLR, !- Name 3.336374E-01, !- Coefficient1 Constant -4.098166E-01, !- Coefficient2 x 1.077791E+00, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YT 1368kW/7.35COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1368 kW (389 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1368kW/7.35COP/VSD, !- Name 1367900, !- Reference Capacity {W} 7.35, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.07571, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1368kW/7.35COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1368kW/7.35COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1368kW/7.35COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1368kW/7.35COP/VSD CAPFT, !- Name 3.832184E-01, !- Coefficient1 Constant -3.265439E-02, !- Coefficient2 x -3.392654E-03, !- Coefficient3 x**2 8.580180E-02, !- Coefficient4 y -3.513013E-03, !- Coefficient5 y**2 6.528440E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1368kW/7.35COP/VSD EIRFT, !- Name 3.227543E-01, !- Coefficient1 Constant -1.415418E-02, !- Coefficient2 x -5.090650E-03, !- Coefficient3 x**2 4.606511E-02, !- Coefficient4 y -8.769578E-04, !- Coefficient5 y**2 2.600343E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1368kW/7.35COP/VSD EIRFPLR, !- Name 9.483562E-02, !- Coefficient1 Constant 1.521114E-01, !- Coefficient2 x 7.543027E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Trane CVHE 1372kW/7.49COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1372 kW (390 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHE 1372kW/7.49COP/Vanes, !- Name 1371500, !- Reference Capacity {W} 7.49, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.07571, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHE 1372kW/7.49COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1372kW/7.49COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1372kW/7.49COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.41, !- Minimum Part Load Ratio 1.07, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.41, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1372kW/7.49COP/Vanes CAPFT, !- Name 5.993784E-01, !- Coefficient1 Constant 6.523380E-02, !- Coefficient2 x -7.714286E-03, !- Coefficient3 x**2 3.114955E-02, !- Coefficient4 y -1.843989E-03, !- Coefficient5 y**2 4.096552E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1372kW/7.49COP/Vanes EIRFT, !- Name 9.123765E-01, !- Coefficient1 Constant 1.616509E-02, !- Coefficient2 x 1.906349E-03, !- Coefficient3 x**2 -1.143164E-02, !- Coefficient4 y 1.080775E-03, !- Coefficient5 y**2 -2.873661E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHE 1372kW/7.49COP/Vanes EIRFPLR, !- Name 5.154478E-02, !- Coefficient1 Constant 9.635713E-01, !- Coefficient2 x -1.896824E-02, !- Coefficient3 x**2 0.41, !- Minimum Value of x 1.07; !- Maximum Value of x ! ElectricEIRChiller York YT 1396kW/7.35COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1396 kW (397 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1396kW/7.35COP/Vanes, !- Name 1396100, !- Reference Capacity {W} 7.35, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.07571, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1396kW/7.35COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1396kW/7.35COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1396kW/7.35COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1396kW/7.35COP/Vanes CAPFT, !- Name 5.167863E-01, !- Coefficient1 Constant -2.788454E-02, !- Coefficient2 x -9.497810E-04, !- Coefficient3 x**2 6.693411E-02, !- Coefficient4 y -2.728430E-03, !- Coefficient5 y**2 4.723123E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1396kW/7.35COP/Vanes EIRFT, !- Name 5.207500E-01, !- Coefficient1 Constant -9.073869E-03, !- Coefficient2 x -1.812171E-04, !- Coefficient3 x**2 2.568740E-02, !- Coefficient4 y 4.255936E-05, !- Coefficient5 y**2 -5.899242E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1396kW/7.35COP/Vanes EIRFPLR, !- Name 3.043032E-01, !- Coefficient1 Constant 3.720107E-02, !- Coefficient2 x 6.590338E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1403kW/7.09COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1403 kW (399 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1403kW/7.09COP/VSD, !- Name 1403100, !- Reference Capacity {W} 7.09, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.03426, !- Reference Chilled Water Flow Rate {m3/s} 0.04252, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1403kW/7.09COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1403kW/7.09COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1403kW/7.09COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1403kW/7.09COP/VSD CAPFT, !- Name 9.601814E-01, !- Coefficient1 Constant -3.596494E-03, !- Coefficient2 x -1.706786E-03, !- Coefficient3 x**2 6.272429E-03, !- Coefficient4 y -9.858212E-04, !- Coefficient5 y**2 2.611673E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1403kW/7.09COP/VSD EIRFT, !- Name 1.098641E+00, !- Coefficient1 Constant -2.485880E-02, !- Coefficient2 x -6.240421E-05, !- Coefficient3 x**2 -1.719488E-03, !- Coefficient4 y 4.887321E-04, !- Coefficient5 y**2 9.618075E-05, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1403kW/7.09COP/VSD EIRFPLR, !- Name 8.788698E-02, !- Coefficient1 Constant 2.678891E-01, !- Coefficient2 x 6.445180E-01, !- Coefficient3 x**2 0.17, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YT 1403kW/6.94COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1403 kW (399 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1403kW/6.94COP/VSD, !- Name 1403100, !- Reference Capacity {W} 6.94, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.05047, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1403kW/6.94COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1403kW/6.94COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1403kW/6.94COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.1, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1403kW/6.94COP/VSD CAPFT, !- Name -3.447077E-02, !- Coefficient1 Constant 1.273138E-01, !- Coefficient2 x -9.716868E-03, !- Coefficient3 x**2 8.863546E-02, !- Coefficient4 y -3.165958E-03, !- Coefficient5 y**2 2.521351E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1403kW/6.94COP/VSD EIRFT, !- Name 3.983846E-01, !- Coefficient1 Constant 2.396665E-02, !- Coefficient2 x -6.601871E-03, !- Coefficient3 x**2 2.944077E-02, !- Coefficient4 y -4.570885E-04, !- Coefficient5 y**2 1.873209E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1403kW/6.94COP/VSD EIRFPLR, !- Name 3.272242E-02, !- Coefficient1 Constant 3.873540E-01, !- Coefficient2 x 5.789579E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.1; !- Maximum Value of x ! ElectricEIRChiller Trane CVHE 1407kW/7.14COP/VSD ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1407 kW (400 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHE 1407kW/7.14COP/VSD, !- Name 1406600, !- Reference Capacity {W} 7.14, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.07571, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHE 1407kW/7.14COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1407kW/7.14COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1407kW/7.14COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1407kW/7.14COP/VSD CAPFT, !- Name 4.521342E-01, !- Coefficient1 Constant 5.248142E-03, !- Coefficient2 x -6.687636E-03, !- Coefficient3 x**2 5.869437E-02, !- Coefficient4 y -2.390647E-03, !- Coefficient5 y**2 5.040171E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1407kW/7.14COP/VSD EIRFT, !- Name 5.674858E-01, !- Coefficient1 Constant 4.461513E-02, !- Coefficient2 x -6.341978E-03, !- Coefficient3 x**2 4.674972E-03, !- Coefficient4 y 4.387295E-04, !- Coefficient5 y**2 2.778096E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHE 1407kW/7.14COP/VSD EIRFPLR, !- Name 5.963988E-02, !- Coefficient1 Constant 3.503067E-01, !- Coefficient2 x 5.870000E-01, !- Coefficient3 x**2 0.30, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller McQuay PFH 1407kW/6.60COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 1407 kW (400 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PFH 1407kW/6.60COP/Vanes, !- Name 1406600, !- Reference Capacity {W} 6.60, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 22.78, !- Reference Entering Condenser Fluid Temperature {C} 0.04038, !- Reference Chilled Water Flow Rate {m3/s} 0.05804, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PFH 1407kW/6.60COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 1407kW/6.60COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 1407kW/6.60COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 1407kW/6.60COP/Vanes CAPFT, !- Name 1.191784E+00, !- Coefficient1 Constant 2.070584E-02, !- Coefficient2 x -4.952378E-03, !- Coefficient3 x**2 1.757508E-02, !- Coefficient4 y -2.487599E-03, !- Coefficient5 y**2 5.934709E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 1407kW/6.60COP/Vanes EIRFT, !- Name 7.929709E-01, !- Coefficient1 Constant 3.424884E-02, !- Coefficient2 x -5.567434E-03, !- Coefficient3 x**2 -6.974667E-03, !- Coefficient4 y 2.531138E-04, !- Coefficient5 y**2 1.862577E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PFH 1407kW/6.60COP/Vanes EIRFPLR, !- Name 7.700603E-02, !- Coefficient1 Constant 5.414789E-01, !- Coefficient2 x 3.826334E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1407kW/6.04COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1407 kW (400 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1407kW/6.04COP/VSD, !- Name 1406600, !- Reference Capacity {W} 6.04, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.06057, !- Reference Chilled Water Flow Rate {m3/s} 0.07571, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1407kW/6.04COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1407kW/6.04COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1407kW/6.04COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1407kW/6.04COP/VSD CAPFT, !- Name 1.042261E+00, !- Coefficient1 Constant 2.644821E-03, !- Coefficient2 x -1.468026E-03, !- Coefficient3 x**2 1.366256E-02, !- Coefficient4 y -8.302334E-04, !- Coefficient5 y**2 1.573579E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 32.22; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1407kW/6.04COP/VSD EIRFT, !- Name 1.026340E+00, !- Coefficient1 Constant -1.612819E-02, !- Coefficient2 x -1.092591E-03, !- Coefficient3 x**2 -1.784393E-02, !- Coefficient4 y 7.961842E-04, !- Coefficient5 y**2 -9.586049E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 32.22; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1407kW/6.04COP/VSD EIRFPLR, !- Name 1.188880E-01, !- Coefficient1 Constant 6.723542E-01, !- Coefficient2 x 2.068754E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1410kW/8.54COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1410 kW (401 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1410kW/8.54COP/VSD, !- Name 1410100, !- Reference Capacity {W} 8.54, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.04, !- Reference Chilled Water Flow Rate {m3/s} 0.05861, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1410kW/8.54COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1410kW/8.54COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1410kW/8.54COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1410kW/8.54COP/VSD CAPFT, !- Name 9.597856E-01, !- Coefficient1 Constant -6.247187E-03, !- Coefficient2 x -1.117998E-03, !- Coefficient3 x**2 6.991040E-03, !- Coefficient4 y -6.321252E-04, !- Coefficient5 y**2 1.765068E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1410kW/8.54COP/VSD EIRFT, !- Name 1.131014E+00, !- Coefficient1 Constant -6.735406E-02, !- Coefficient2 x 3.034309E-06, !- Coefficient3 x**2 1.307361E-02, !- Coefficient4 y 3.384625E-04, !- Coefficient5 y**2 7.872113E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1410kW/8.54COP/VSD EIRFPLR, !- Name 9.662908E-02, !- Coefficient1 Constant 7.475978E-01, !- Coefficient2 x 1.566368E-01, !- Coefficient3 x**2 0.18, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Trane CVHE 1442kW/6.61COP/VSD ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1442 kW (410 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHE 1442kW/6.61COP/VSD, !- Name 1441800, !- Reference Capacity {W} 6.61, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.05047, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHE 1442kW/6.61COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1442kW/6.61COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1442kW/6.61COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.07, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1442kW/6.61COP/VSD CAPFT, !- Name 4.007341E-01, !- Coefficient1 Constant 1.148568E-03, !- Coefficient2 x 1.049504E-04, !- Coefficient3 x**2 5.574667E-02, !- Coefficient4 y -1.646131E-03, !- Coefficient5 y**2 1.323200E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1442kW/6.61COP/VSD EIRFT, !- Name 6.287646E-01, !- Coefficient1 Constant -3.024605E-02, !- Coefficient2 x 6.137016E-04, !- Coefficient3 x**2 1.805826E-02, !- Coefficient4 y 1.640653E-04, !- Coefficient5 y**2 -1.113802E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHE 1442kW/6.61COP/VSD EIRFPLR, !- Name 9.299787E-02, !- Coefficient1 Constant 3.244475E-01, !- Coefficient2 x 5.818753E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.07; !- Maximum Value of x ! ElectricEIRChiller York YT 1459kW/6.40COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1459 kW (415 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1459kW/6.40COP/VSD, !- Name 1459400, !- Reference Capacity {W} 6.40, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.05047, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1459kW/6.40COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1459kW/6.40COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1459kW/6.40COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.13, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1459kW/6.40COP/VSD CAPFT, !- Name -1.665585E-01, !- Coefficient1 Constant 2.211580E-01, !- Coefficient2 x -1.408361E-02, !- Coefficient3 x**2 6.476151E-02, !- Coefficient4 y -2.009341E-03, !- Coefficient5 y**2 -7.897630E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1459kW/6.40COP/VSD EIRFT, !- Name 1.438935E-01, !- Coefficient1 Constant 9.821191E-02, !- Coefficient2 x -1.174270E-02, !- Coefficient3 x**2 3.748666E-02, !- Coefficient4 y -5.700518E-04, !- Coefficient5 y**2 1.053698E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1459kW/6.40COP/VSD EIRFPLR, !- Name 3.999642E-02, !- Coefficient1 Constant 2.509430E-01, !- Coefficient2 x 7.067059E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.13; !- Maximum Value of x ! ElectricEIRChiller Trane CVHE 1484kW/9.96COP/VSD ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1484 kW (422 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHE 1484kW/9.96COP/VSD, !- Name 1484000, !- Reference Capacity {W} 9.96, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09085, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHE 1484kW/9.96COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1484kW/9.96COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1484kW/9.96COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.24, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.24, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1484kW/9.96COP/VSD CAPFT, !- Name -4.544480E-01, !- Coefficient1 Constant -3.615933E-02, !- Coefficient2 x -2.734006E-03, !- Coefficient3 x**2 1.683863E-01, !- Coefficient4 y -4.557649E-03, !- Coefficient5 y**2 5.362840E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1484kW/9.96COP/VSD EIRFT, !- Name -3.693940E-01, !- Coefficient1 Constant -6.387787E-02, !- Coefficient2 x -2.760494E-04, !- Coefficient3 x**2 1.661135E-01, !- Coefficient4 y -3.105485E-03, !- Coefficient5 y**2 1.705909E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHE 1484kW/9.96COP/VSD EIRFPLR, !- Name 1.353827E-01, !- Coefficient1 Constant 1.385983E-02, !- Coefficient2 x 8.522688E-01, !- Coefficient3 x**2 0.24, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller York YT 1495kW/7.51COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1495 kW (425 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1495kW/7.51COP/VSD, !- Name 1494500, !- Reference Capacity {W} 7.51, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.0429, !- Reference Chilled Water Flow Rate {m3/s} 0.06719, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1495kW/7.51COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1495kW/7.51COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1495kW/7.51COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.11, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.11, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1495kW/7.51COP/VSD CAPFT, !- Name 1.051921E+00, !- Coefficient1 Constant -1.632255E-01, !- Coefficient2 x 1.149042E-02, !- Coefficient3 x**2 5.463515E-02, !- Coefficient4 y -1.579985E-03, !- Coefficient5 y**2 1.628246E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1495kW/7.51COP/VSD EIRFT, !- Name 7.106985E-01, !- Coefficient1 Constant -2.087623E-01, !- Coefficient2 x 9.421379E-03, !- Coefficient3 x**2 8.491925E-02, !- Coefficient4 y -1.260820E-03, !- Coefficient5 y**2 1.125512E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1495kW/7.51COP/VSD EIRFPLR, !- Name 1.517470E-01, !- Coefficient1 Constant -1.577252E-01, !- Coefficient2 x 1.005197E+00, !- Coefficient3 x**2 0.11, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller McQuay WSC 1519kW/7.10COP/Vanes ! Manufacturer = McQuay, Model Line = WSC ! Reference Capacity = 1519 kW (432 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay WSC 1519kW/7.10COP/Vanes, !- Name 1519200, !- Reference Capacity {W} 7.10, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.08139, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay WSC 1519kW/7.10COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay WSC 1519kW/7.10COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay WSC 1519kW/7.10COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay WSC 1519kW/7.10COP/Vanes CAPFT, !- Name 1.265889E+00, !- Coefficient1 Constant 3.401563E-02, !- Coefficient2 x -6.532621E-03, !- Coefficient3 x**2 -6.600960E-03, !- Coefficient4 y -2.172017E-03, !- Coefficient5 y**2 7.121766E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay WSC 1519kW/7.10COP/Vanes EIRFT, !- Name 9.981236E-01, !- Coefficient1 Constant -1.060763E-02, !- Coefficient2 x -3.921458E-03, !- Coefficient3 x**2 -1.206761E-02, !- Coefficient4 y -1.398595E-04, !- Coefficient5 y**2 3.467199E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay WSC 1519kW/7.10COP/Vanes EIRFPLR, !- Name 1.563837E-01, !- Coefficient1 Constant 4.894381E-01, !- Coefficient2 x 3.541551E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1558kW/5.81COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1558 kW (443 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60Hz ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1558kW/5.81COP/VSD, !- Name 1557800, !- Reference Capacity {W} 5.81, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 21.11, !- Reference Entering Condenser Fluid Temperature {C} 0.03785, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1558kW/5.81COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1558kW/5.81COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1558kW/5.81COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1558kW/5.81COP/VSD CAPFT, !- Name 1.034307E+00, !- Coefficient1 Constant 2.390635E-02, !- Coefficient2 x -1.222578E-03, !- Coefficient3 x**2 -5.346220E-03, !- Coefficient4 y -2.183258E-04, !- Coefficient5 y**2 6.282331E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 11.94, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1558kW/5.81COP/VSD EIRFT, !- Name 1.099343E+00, !- Coefficient1 Constant -3.132676E-02, !- Coefficient2 x 4.108521E-04, !- Coefficient3 x**2 -7.377845E-03, !- Coefficient4 y 5.775048E-04, !- Coefficient5 y**2 -3.528472E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 11.94, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1558kW/5.81COP/VSD EIRFPLR, !- Name 1.620909E-01, !- Coefficient1 Constant -2.553890E-01, !- Coefficient2 x 1.092232E+00, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1586kW/5.53COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1586 kW (451 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = N/A ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1586kW/5.53COP/VSD, !- Name 1586000, !- Reference Capacity {W} 5.53, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.03388, !- Reference Chilled Water Flow Rate {m3/s} 0.04669, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1586kW/5.53COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1586kW/5.53COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1586kW/5.53COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1586kW/5.53COP/VSD CAPFT, !- Name 1.119233E+00, !- Coefficient1 Constant 1.130501E-02, !- Coefficient2 x -6.423802E-04, !- Coefficient3 x**2 -5.144512E-03, !- Coefficient4 y -3.085995E-04, !- Coefficient5 y**2 7.813582E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1586kW/5.53COP/VSD EIRFT, !- Name 1.110611E+00, !- Coefficient1 Constant -3.795765E-02, !- Coefficient2 x 2.851444E-04, !- Coefficient3 x**2 -4.560404E-03, !- Coefficient4 y 4.044229E-04, !- Coefficient5 y**2 1.407332E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1586kW/5.53COP/VSD EIRFPLR, !- Name 1.996379E-01, !- Coefficient1 Constant -1.612021E-01, !- Coefficient2 x 9.608483E-01, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller McQuay PEH 1635kW/7.47COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1635 kW (465 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PEH 1635kW/7.47COP/Vanes, !- Name 1635200, !- Reference Capacity {W} 7.47, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.04416, !- Reference Chilled Water Flow Rate {m3/s} 0.06624, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PEH 1635kW/7.47COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1635kW/7.47COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1635kW/7.47COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.08, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.08, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1635kW/7.47COP/Vanes CAPFT, !- Name 9.894188E-01, !- Coefficient1 Constant 2.983148E-03, !- Coefficient2 x -2.484601E-03, !- Coefficient3 x**2 5.974984E-03, !- Coefficient4 y -1.063988E-03, !- Coefficient5 y**2 2.601503E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1635kW/7.47COP/Vanes EIRFT, !- Name 1.040733E+00, !- Coefficient1 Constant -7.118888E-02, !- Coefficient2 x 2.262395E-03, !- Coefficient3 x**2 1.221901E-02, !- Coefficient4 y 2.152693E-04, !- Coefficient5 y**2 7.409943E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PEH 1635kW/7.47COP/Vanes EIRFPLR, !- Name 1.836695E-01, !- Coefficient1 Constant 5.781685E-01, !- Coefficient2 x 2.385719E-01, !- Coefficient3 x**2 0.08, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1635 kW (465 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes, !- Name 1635200, !- Reference Capacity {W} 6.36, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.03432, !- Reference Chilled Water Flow Rate {m3/s} 0.05035, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes CAPFT, !- Name 7.639212E-01, !- Coefficient1 Constant 1.160405E-02, !- Coefficient2 x -5.344185E-03, !- Coefficient3 x**2 3.306796E-02, !- Coefficient4 y -2.100827E-03, !- Coefficient5 y**2 4.920586E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes EIRFT, !- Name 7.355981E-01, !- Coefficient1 Constant -1.083354E-02, !- Coefficient2 x -9.244662E-04, !- Coefficient3 x**2 1.458943E-02, !- Coefficient4 y 8.494647E-06, !- Coefficient5 y**2 1.279572E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes EIRFPLR, !- Name 2.581595E-01, !- Coefficient1 Constant 2.707154E-01, !- Coefficient2 x 4.707425E-01, !- Coefficient3 x**2 0.18, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1656kW/8.24COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1656 kW (471 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1656kW/8.24COP/VSD, !- Name 1656300, !- Reference Capacity {W} 8.24, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.04322, !- Reference Chilled Water Flow Rate {m3/s} 0.06296, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1656kW/8.24COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1656kW/8.24COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1656kW/8.24COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1656kW/8.24COP/VSD CAPFT, !- Name 7.611706E-01, !- Coefficient1 Constant -2.867067E-02, !- Coefficient2 x -2.363358E-03, !- Coefficient3 x**2 4.097113E-02, !- Coefficient4 y -2.343044E-03, !- Coefficient5 y**2 4.547017E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1656kW/8.24COP/VSD EIRFT, !- Name 7.730916E-01, !- Coefficient1 Constant -8.073559E-02, !- Coefficient2 x -2.161313E-03, !- Coefficient3 x**2 6.144398E-02, !- Coefficient4 y -1.953734E-03, !- Coefficient5 y**2 4.056527E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1656kW/8.24COP/VSD EIRFPLR, !- Name 1.982584E-01, !- Coefficient1 Constant 4.414042E-02, !- Coefficient2 x 7.642946E-01, !- Coefficient3 x**2 0.17, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller York YT 1663kW/9.34COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1663 kW (473 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1663kW/9.34COP/Vanes, !- Name 1663300, !- Reference Capacity {W} 9.34, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.04139, !- Reference Chilled Water Flow Rate {m3/s} 0.0776, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1663kW/9.34COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1663kW/9.34COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1663kW/9.34COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1663kW/9.34COP/Vanes CAPFT, !- Name 9.112226E-01, !- Coefficient1 Constant -4.546497E-02, !- Coefficient2 x 4.431126E-03, !- Coefficient3 x**2 2.439160E-02, !- Coefficient4 y -1.415836E-03, !- Coefficient5 y**2 1.877877E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1663kW/9.34COP/Vanes EIRFT, !- Name 1.028094E+00, !- Coefficient1 Constant -6.127553E-02, !- Coefficient2 x 3.236371E-03, !- Coefficient3 x**2 1.656482E-02, !- Coefficient4 y 2.976850E-04, !- Coefficient5 y**2 -4.418361E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1663kW/9.34COP/Vanes EIRFPLR, !- Name 2.127966E-01, !- Coefficient1 Constant 3.131004E-01, !- Coefficient2 x 4.726018E-01, !- Coefficient3 x**2 0.17, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes ! Manufacturer = Carrier, Model Line = 19XL ! Reference Capacity = 1674 kW (476 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes, !- Name 1673900, !- Reference Capacity {W} 7.89, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09085, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.32, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.32, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes CAPFT, !- Name 2.925408E-01, !- Coefficient1 Constant -4.406182E-02, !- Coefficient2 x -1.292074E-03, !- Coefficient3 x**2 9.008701E-02, !- Coefficient4 y -2.646719E-03, !- Coefficient5 y**2 3.388396E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes EIRFT, !- Name 9.868510E-01, !- Coefficient1 Constant -6.325526E-02, !- Coefficient2 x 3.498632E-03, !- Coefficient3 x**2 1.699731E-02, !- Coefficient4 y 2.573490E-04, !- Coefficient5 y**2 -4.233553E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes EIRFPLR, !- Name 3.386410E-01, !- Coefficient1 Constant 2.621224E-01, !- Coefficient2 x 3.987109E-01, !- Coefficient3 x**2 0.32, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 1681kW/6.59COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 1681 kW (478 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 1681kW/6.59COP/Vanes, !- Name 1680900, !- Reference Capacity {W} 6.59, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.04366, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 1681kW/6.59COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 1681kW/6.59COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 1681kW/6.59COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 1681kW/6.59COP/Vanes CAPFT, !- Name 6.792987E-01, !- Coefficient1 Constant -5.291217E-02, !- Coefficient2 x -5.280108E-03, !- Coefficient3 x**2 5.252682E-02, !- Coefficient4 y -2.523689E-03, !- Coefficient5 y**2 7.344940E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.33, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 1681kW/6.59COP/Vanes EIRFT, !- Name 4.344630E-01, !- Coefficient1 Constant -5.781149E-03, !- Coefficient2 x 2.852311E-04, !- Coefficient3 x**2 2.723246E-02, !- Coefficient4 y 1.280801E-04, !- Coefficient5 y**2 -8.964328E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.33, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 1681kW/6.59COP/Vanes EIRFPLR, !- Name 1.619116E-01, !- Coefficient1 Constant 2.362420E-01, !- Coefficient2 x 6.032459E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1723 kW (490 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD, !- Name 1723100, !- Reference Capacity {W} 8.32, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.04757, !- Reference Chilled Water Flow Rate {m3/s} 0.06934, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD CAPFT, !- Name 4.742518E-01, !- Coefficient1 Constant -5.109937E-02, !- Coefficient2 x -2.845323E-03, !- Coefficient3 x**2 8.257997E-02, !- Coefficient4 y -3.404799E-03, !- Coefficient5 y**2 5.625321E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD EIRFT, !- Name 2.950574E-01, !- Coefficient1 Constant -1.036684E-01, !- Coefficient2 x -4.169567E-03, !- Coefficient3 x**2 1.256790E-01, !- Coefficient4 y -4.004203E-03, !- Coefficient5 y**2 6.718687E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD EIRFPLR, !- Name 2.374010E-01, !- Coefficient1 Constant -1.796745E-01, !- Coefficient2 x 9.441507E-01, !- Coefficient3 x**2 0.18, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1727 kW (491 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes, !- Name 1726600, !- Reference Capacity {W} 9.04, !- Reference COP {W/W} 7.78, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.03912, !- Reference Chilled Water Flow Rate {m3/s} 0.07192, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes CAPFT, !- Name 6.509915E-01, !- Coefficient1 Constant 2.567642E-02, !- Coefficient2 x -5.417815E-03, !- Coefficient3 x**2 3.406103E-02, !- Coefficient4 y -1.703640E-03, !- Coefficient5 y**2 3.336164E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes EIRFT, !- Name 1.072553E+00, !- Coefficient1 Constant -8.058631E-03, !- Coefficient2 x -2.109608E-03, !- Coefficient3 x**2 -1.262910E-03, !- Coefficient4 y 6.155442E-04, !- Coefficient5 y**2 4.796754E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes EIRFPLR, !- Name 2.465824E-01, !- Coefficient1 Constant 4.494453E-01, !- Coefficient2 x 3.037680E-01, !- Coefficient3 x**2 0.17, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller McQuay WSC 1751kW/6.73COP/Vanes ! Manufacturer = McQuay, Model Line = WSC ! Reference Capacity = 1751 kW (498 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay WSC 1751kW/6.73COP/Vanes, !- Name 1751300, !- Reference Capacity {W} 6.73, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.04145, !- Reference Chilled Water Flow Rate {m3/s} 0.09337, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay WSC 1751kW/6.73COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay WSC 1751kW/6.73COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay WSC 1751kW/6.73COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay WSC 1751kW/6.73COP/Vanes CAPFT, !- Name 7.923045E-01, !- Coefficient1 Constant 1.003672E-01, !- Coefficient2 x -4.348900E-03, !- Coefficient3 x**2 3.755572E-03, !- Coefficient4 y -7.675491E-04, !- Coefficient5 y**2 6.788600E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay WSC 1751kW/6.73COP/Vanes EIRFT, !- Name 8.089395E-01, !- Coefficient1 Constant 2.628482E-02, !- Coefficient2 x -1.773497E-03, !- Coefficient3 x**2 -8.118430E-03, !- Coefficient4 y 7.146809E-04, !- Coefficient5 y**2 -6.481705E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay WSC 1751kW/6.73COP/Vanes EIRFPLR, !- Name 2.250725E-01, !- Coefficient1 Constant 2.648297E-01, !- Coefficient2 x 5.095786E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 1758kW/5.96COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 208V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 1758kW/5.96COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 5.96, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 24.44, !- Reference Entering Condenser Fluid Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 1758kW/5.96COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 1758kW/5.96COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 1758kW/5.96COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 1758kW/5.96COP/Vanes CAPFT, !- Name 1.074211E+00, !- Coefficient1 Constant 7.710761E-03, !- Coefficient2 x -3.166770E-03, !- Coefficient3 x**2 -1.868765E-02, !- Coefficient4 y 1.273866E-04, !- Coefficient5 y**2 2.744586E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 1758kW/5.96COP/Vanes EIRFT, !- Name 4.910329E-01, !- Coefficient1 Constant -9.895115E-02, !- Coefficient2 x 4.257871E-03, !- Coefficient3 x**2 5.433817E-02, !- Coefficient4 y -8.184909E-04, !- Coefficient5 y**2 6.178810E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 1758kW/5.96COP/Vanes EIRFPLR, !- Name 3.694797E-01, !- Coefficient1 Constant 9.551656E-02, !- Coefficient2 x 5.347291E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YT 1758kW/5.76COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60Hz ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1758kW/5.76COP/VSD, !- Name 1758300, !- Reference Capacity {W} 5.76, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 24.44, !- Reference Entering Condenser Fluid Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1758kW/5.76COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1758kW/5.76COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1758kW/5.76COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1758kW/5.76COP/VSD CAPFT, !- Name 4.575085E-01, !- Coefficient1 Constant 1.313508E-01, !- Coefficient2 x -4.408831E-03, !- Coefficient3 x**2 1.930354E-02, !- Coefficient4 y -5.479641E-04, !- Coefficient5 y**2 -1.376580E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.51, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1758kW/5.76COP/VSD EIRFT, !- Name 6.794525E-01, !- Coefficient1 Constant 6.694756E-02, !- Coefficient2 x -3.625396E-03, !- Coefficient3 x**2 -1.018762E-02, !- Coefficient4 y 1.066394E-03, !- Coefficient5 y**2 -2.113402E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.51, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1758kW/5.76COP/VSD EIRFPLR, !- Name 7.859908E-02, !- Coefficient1 Constant 1.950291E-01, !- Coefficient2 x 7.241581E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YT 1758kW/6.26COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 230V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1758kW/6.26COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 6.26, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 24.44, !- Reference Entering Condenser Fluid Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1758kW/6.26COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1758kW/6.26COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1758kW/6.26COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.14, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1758kW/6.26COP/Vanes CAPFT, !- Name 8.975936E-01, !- Coefficient1 Constant -1.459740E-02, !- Coefficient2 x 3.647187E-03, !- Coefficient3 x**2 3.202545E-02, !- Coefficient4 y -1.190379E-03, !- Coefficient5 y**2 3.297810E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1758kW/6.26COP/Vanes EIRFT, !- Name 2.311197E-01, !- Coefficient1 Constant 9.581517E-02, !- Coefficient2 x -5.672726E-03, !- Coefficient3 x**2 2.766035E-02, !- Coefficient4 y -1.411214E-04, !- Coefficient5 y**2 -1.011216E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1758kW/6.26COP/Vanes EIRFPLR, !- Name 1.720545E-01, !- Coefficient1 Constant 5.598164E-01, !- Coefficient2 x 2.626117E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.14; !- Maximum Value of x ! ElectricEIRChiller York YT 1758kW/5.96COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 230V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1758kW/5.96COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 5.96, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 24.44, !- Reference Entering Condenser Fluid Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1758kW/5.96COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1758kW/5.96COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1758kW/5.96COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1758kW/5.96COP/Vanes CAPFT, !- Name 8.492365E-01, !- Coefficient1 Constant 5.551947E-02, !- Coefficient2 x -2.973138E-04, !- Coefficient3 x**2 1.164389E-03, !- Coefficient4 y -2.955716E-04, !- Coefficient5 y**2 8.464931E-05, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1758kW/5.96COP/Vanes EIRFT, !- Name 4.949320E-01, !- Coefficient1 Constant 9.099785E-03, !- Coefficient2 x -6.935841E-04, !- Coefficient3 x**2 3.277452E-02, !- Coefficient4 y -3.895481E-04, !- Coefficient5 y**2 -5.524011E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1758kW/5.96COP/Vanes EIRFPLR, !- Name 2.236154E-01, !- Coefficient1 Constant 2.590053E-01, !- Coefficient2 x 5.169137E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Trane CVHE 1758kW/5.96COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHE 1758kW/5.96COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 5.96, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09464, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHE 1758kW/5.96COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1758kW/5.96COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHE 1758kW/5.96COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1758kW/5.96COP/Vanes CAPFT, !- Name 9.566057E-02, !- Coefficient1 Constant -2.457943E-02, !- Coefficient2 x -6.827143E-03, !- Coefficient3 x**2 7.119360E-02, !- Coefficient4 y -2.047680E-03, !- Coefficient5 y**2 5.248800E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.89, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHE 1758kW/5.96COP/Vanes EIRFT, !- Name 1.243313E+00, !- Coefficient1 Constant -3.031784E-02, !- Coefficient2 x 3.452464E-03, !- Coefficient3 x**2 -2.739941E-02, !- Coefficient4 y 9.141695E-04, !- Coefficient5 y**2 -1.000080E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.89, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHE 1758kW/5.96COP/Vanes EIRFPLR, !- Name 1.871377E-01, !- Coefficient1 Constant 5.849639E-01, !- Coefficient2 x 2.291447E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YT 1758kW/6.28COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1758kW/6.28COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 6.28, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09464, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1758kW/6.28COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1758kW/6.28COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1758kW/6.28COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1758kW/6.28COP/Vanes CAPFT, !- Name 7.079149E-01, !- Coefficient1 Constant -2.006276E-03, !- Coefficient2 x -2.596043E-03, !- Coefficient3 x**2 3.005922E-02, !- Coefficient4 y -1.056423E-03, !- Coefficient5 y**2 2.045705E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1758kW/6.28COP/Vanes EIRFT, !- Name 5.605391E-01, !- Coefficient1 Constant -1.377994E-02, !- Coefficient2 x 6.569542E-05, !- Coefficient3 x**2 1.321951E-02, !- Coefficient4 y 2.686074E-04, !- Coefficient5 y**2 -5.011451E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1758kW/6.28COP/Vanes EIRFPLR, !- Name 1.861223E-01, !- Coefficient1 Constant 5.482049E-01, !- Coefficient2 x 2.647377E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1758kW/5.86COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60Hz ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1758kW/5.86COP/VSD, !- Name 1758300, !- Reference Capacity {W} 5.86, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 24.44, !- Reference Entering Condenser Fluid Temperature {C} 0.06303, !- Reference Chilled Water Flow Rate {m3/s} 0.07337, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1758kW/5.86COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1758kW/5.86COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1758kW/5.86COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1758kW/5.86COP/VSD CAPFT, !- Name 3.677279E-01, !- Coefficient1 Constant -3.175504E-02, !- Coefficient2 x -4.096383E-03, !- Coefficient3 x**2 7.527566E-02, !- Coefficient4 y -2.757540E-03, !- Coefficient5 y**2 5.359020E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1758kW/5.86COP/VSD EIRFT, !- Name 1.743365E-01, !- Coefficient1 Constant -5.054806E-02, !- Coefficient2 x -5.424748E-03, !- Coefficient3 x**2 8.244673E-02, !- Coefficient4 y -2.400392E-03, !- Coefficient5 y**2 5.078720E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1758kW/5.86COP/VSD EIRFPLR, !- Name 2.784580E-01, !- Coefficient1 Constant -5.498632E-01, !- Coefficient2 x 1.269693E+00, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 1758kW/6.46COP/VSD ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 208V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 1758kW/6.46COP/VSD, !- Name 1758300, !- Reference Capacity {W} 6.46, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 24.44, !- Reference Entering Condenser Fluid Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 1758kW/6.46COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 1758kW/6.46COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 1758kW/6.46COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 1758kW/6.46COP/VSD CAPFT, !- Name 1.066671E+00, !- Coefficient1 Constant 5.889240E-03, !- Coefficient2 x -3.155053E-03, !- Coefficient3 x**2 -1.591039E-02, !- Coefficient4 y 1.042897E-04, !- Coefficient5 y**2 2.576256E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 1758kW/6.46COP/VSD EIRFT, !- Name 7.989434E-02, !- Coefficient1 Constant 2.062907E-02, !- Coefficient2 x -4.050827E-04, !- Coefficient3 x**2 4.570552E-02, !- Coefficient4 y -1.469163E-04, !- Coefficient5 y**2 -1.563259E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 1758kW/6.46COP/VSD EIRFPLR, !- Name 3.268954E-01, !- Coefficient1 Constant 3.297771E-01, !- Coefficient2 x 3.423342E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 1758kW/6.87COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 208V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 1758kW/6.87COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 6.87, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 24.44, !- Reference Entering Condenser Fluid Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 1758kW/6.87COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 1758kW/6.87COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 1758kW/6.87COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 1758kW/6.87COP/Vanes CAPFT, !- Name 8.085529E-01, !- Coefficient1 Constant 3.412026E-02, !- Coefficient2 x -4.184591E-04, !- Coefficient3 x**2 4.111323E-03, !- Coefficient4 y -1.764627E-04, !- Coefficient5 y**2 4.184748E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 1758kW/6.87COP/Vanes EIRFT, !- Name 6.329473E-01, !- Coefficient1 Constant 5.521802E-03, !- Coefficient2 x 1.487172E-04, !- Coefficient3 x**2 2.433576E-03, !- Coefficient4 y 7.100129E-04, !- Coefficient5 y**2 -1.108627E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 24.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 1758kW/6.87COP/Vanes EIRFPLR, !- Name 2.401900E-01, !- Coefficient1 Constant 5.090345E-01, !- Coefficient2 x 2.500532E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1776 kW (505 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes, !- Name 1775900, !- Reference Capacity {W} 8.00, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.04757, !- Reference Chilled Water Flow Rate {m3/s} 0.07003, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes CAPFT, !- Name 4.841535E-01, !- Coefficient1 Constant -3.584260E-02, !- Coefficient2 x -1.467417E-03, !- Coefficient3 x**2 7.773868E-02, !- Coefficient4 y -3.125809E-03, !- Coefficient5 y**2 3.729631E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes EIRFT, !- Name 8.006719E-01, !- Coefficient1 Constant -3.137026E-02, !- Coefficient2 x 4.098888E-04, !- Coefficient3 x**2 3.176921E-02, !- Coefficient4 y -2.104567E-04, !- Coefficient5 y**2 -7.660277E-05, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes EIRFPLR, !- Name 3.276235E-01, !- Coefficient1 Constant 2.787167E-01, !- Coefficient2 x 3.952405E-01, !- Coefficient3 x**2 0.17, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes ! Manufacturer = Carrier, Model Line = 19XL ! Reference Capacity = 1779 kW (506 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes, !- Name 1779400, !- Reference Capacity {W} 6.18, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.06303, !- Reference Chilled Water Flow Rate {m3/s} 0.08858, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes CAPFT, !- Name 2.703515E-01, !- Coefficient1 Constant -4.051337E-02, !- Coefficient2 x -5.968813E-03, !- Coefficient3 x**2 8.261488E-02, !- Coefficient4 y -3.019425E-03, !- Coefficient5 y**2 6.718040E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 26.11; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes EIRFT, !- Name 5.872331E-01, !- Coefficient1 Constant -3.907248E-02, !- Coefficient2 x 3.474913E-04, !- Coefficient3 x**2 2.950392E-02, !- Coefficient4 y -2.510016E-04, !- Coefficient5 y**2 2.481610E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 26.11; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes EIRFPLR, !- Name 3.090532E-01, !- Coefficient1 Constant 2.641442E-01, !- Coefficient2 x 4.269265E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 1779kW/6.18COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 1779 kW (506 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 1779kW/6.18COP/Vanes, !- Name 1779400, !- Reference Capacity {W} 6.18, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.04454, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 1779kW/6.18COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 1779kW/6.18COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 1779kW/6.18COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 1779kW/6.18COP/Vanes CAPFT, !- Name 3.331346E-01, !- Coefficient1 Constant -5.678656E-02, !- Coefficient2 x -1.257764E-03, !- Coefficient3 x**2 8.198893E-02, !- Coefficient4 y -2.612490E-03, !- Coefficient5 y**2 4.226087E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.33, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 1779kW/6.18COP/Vanes EIRFT, !- Name 3.137523E-01, !- Coefficient1 Constant -1.879556E-02, !- Coefficient2 x -1.860907E-03, !- Coefficient3 x**2 3.469711E-02, !- Coefficient4 y -1.503480E-04, !- Coefficient5 y**2 7.641242E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.33, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 1779kW/6.18COP/Vanes EIRFPLR, !- Name 1.699409E-01, !- Coefficient1 Constant 1.874304E-01, !- Coefficient2 x 6.410385E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YT 1794kW/8.11COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1794 kW (510 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1794kW/8.11COP/Vanes, !- Name 1793500, !- Reference Capacity {W} 8.11, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05148, !- Reference Chilled Water Flow Rate {m3/s} 0.09653, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1794kW/8.11COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1794kW/8.11COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1794kW/8.11COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.08, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1794kW/8.11COP/Vanes CAPFT, !- Name 1.536140E+00, !- Coefficient1 Constant -1.630760E-01, !- Coefficient2 x 1.225832E-02, !- Coefficient3 x**2 2.148166E-02, !- Coefficient4 y -1.654700E-03, !- Coefficient5 y**2 2.660568E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1794kW/8.11COP/Vanes EIRFT, !- Name 8.546274E-01, !- Coefficient1 Constant 2.456473E-01, !- Coefficient2 x -9.770595E-03, !- Coefficient3 x**2 -7.386557E-02, !- Coefficient4 y 2.843499E-03, !- Coefficient5 y**2 -5.292981E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1794kW/8.11COP/Vanes EIRFPLR, !- Name 3.187543E-02, !- Coefficient1 Constant 8.272483E-01, !- Coefficient2 x 1.279099E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.08; !- Maximum Value of x ! ElectricEIRChiller York YT 1794kW/7.90COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1794 kW (510 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1794kW/7.90COP/VSD, !- Name 1793500, !- Reference Capacity {W} 7.90, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05148, !- Reference Chilled Water Flow Rate {m3/s} 0.09653, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1794kW/7.90COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1794kW/7.90COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1794kW/7.90COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1794kW/7.90COP/VSD CAPFT, !- Name 9.552268E-01, !- Coefficient1 Constant -1.553435E-01, !- Coefficient2 x 7.958834E-03, !- Coefficient3 x**2 6.132388E-02, !- Coefficient4 y -1.899594E-03, !- Coefficient5 y**2 3.323245E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1794kW/7.90COP/VSD EIRFT, !- Name 5.984829E-01, !- Coefficient1 Constant -1.552700E-01, !- Coefficient2 x 6.909012E-03, !- Coefficient3 x**2 6.801572E-02, !- Coefficient4 y -7.450754E-04, !- Coefficient5 y**2 5.764600E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1794kW/7.90COP/VSD EIRFPLR, !- Name 1.445880E-01, !- Coefficient1 Constant 1.059293E-01, !- Coefficient2 x 7.489704E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes ! Manufacturer = Carrier, Model Line = 19XL ! Reference Capacity = 1797 kW (511 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes, !- Name 1797000, !- Reference Capacity {W} 5.69, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.07737, !- Reference Chilled Water Flow Rate {m3/s} 0.09672, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.39, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.39, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes CAPFT, !- Name 9.084596E-01, !- Coefficient1 Constant 4.671596E-02, !- Coefficient2 x -1.188845E-03, !- Coefficient3 x**2 -2.284596E-03, !- Coefficient4 y -3.170254E-05, !- Coefficient5 y**2 -3.577858E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 10.00, !- Maximum Value of x 21.11, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes EIRFT, !- Name 1.084290E+00, !- Coefficient1 Constant -4.318103E-02, !- Coefficient2 x 1.586113E-03, !- Coefficient3 x**2 1.664015E-03, !- Coefficient4 y 8.043383E-05, !- Coefficient5 y**2 5.681056E-05, !- Coefficient6 x*y 6.67, !- Minimum Value of x 10.00, !- Maximum Value of x 21.11, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes EIRFPLR, !- Name 5.926251E-01, !- Coefficient1 Constant -2.657314E-01, !- Coefficient2 x 6.731751E-01, !- Coefficient3 x**2 0.39, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 1801kW/6.34COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1801 kW (512 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 1801kW/6.34COP/VSD, !- Name 1800500, !- Reference Capacity {W} 6.34, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05161, !- Reference Chilled Water Flow Rate {m3/s} 0.06385, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 1801kW/6.34COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1801kW/6.34COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 1801kW/6.34COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1801kW/6.34COP/VSD CAPFT, !- Name 6.174861E-01, !- Coefficient1 Constant -7.299051E-02, !- Coefficient2 x -1.897105E-03, !- Coefficient3 x**2 7.003662E-02, !- Coefficient4 y -2.852439E-03, !- Coefficient5 y**2 5.751931E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 1801kW/6.34COP/VSD EIRFT, !- Name 6.931082E-01, !- Coefficient1 Constant -1.885558E-02, !- Coefficient2 x 8.345461E-04, !- Coefficient3 x**2 1.263879E-02, !- Coefficient4 y 4.588028E-04, !- Coefficient5 y**2 -8.221467E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 1801kW/6.34COP/VSD EIRFPLR, !- Name 1.040764E-01, !- Coefficient1 Constant 2.818752E-01, !- Coefficient2 x 6.144036E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YT 1867kW/10.09COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1867 kW (531 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1867kW/10.09COP/Vanes, !- Name 1867300, !- Reference Capacity {W} 10.09, !- Reference COP {W/W} 7.78, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09085, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1867kW/10.09COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1867kW/10.09COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1867kW/10.09COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1867kW/10.09COP/Vanes CAPFT, !- Name 4.451516E-01, !- Coefficient1 Constant -1.252382E-02, !- Coefficient2 x -2.878042E-03, !- Coefficient3 x**2 6.132233E-02, !- Coefficient4 y -2.365055E-03, !- Coefficient5 y**2 4.514258E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1867kW/10.09COP/Vanes EIRFT, !- Name 6.668391E-01, !- Coefficient1 Constant 1.506485E-02, !- Coefficient2 x -4.249134E-03, !- Coefficient3 x**2 3.588996E-02, !- Coefficient4 y -1.681591E-04, !- Coefficient5 y**2 7.028459E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1867kW/10.09COP/Vanes EIRFPLR, !- Name 2.157002E-01, !- Coefficient1 Constant 2.251016E-01, !- Coefficient2 x 5.584287E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes ! Manufacturer = Carrier, Model Line = 19XL ! Reference Capacity = 1871 kW (532 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes, !- Name 1870800, !- Reference Capacity {W} 6.49, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.06303, !- Reference Chilled Water Flow Rate {m3/s} 0.0877, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes CAPFT, !- Name 5.658630E-03, !- Coefficient1 Constant -3.836575E-02, !- Coefficient2 x -5.122195E-03, !- Coefficient3 x**2 1.068063E-01, !- Coefficient4 y -3.377824E-03, !- Coefficient5 y**2 5.650118E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes EIRFT, !- Name 1.029608E+00, !- Coefficient1 Constant -7.149045E-02, !- Coefficient2 x 2.043279E-03, !- Coefficient3 x**2 -6.116474E-04, !- Coefficient4 y 3.908334E-04, !- Coefficient5 y**2 6.870233E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes EIRFPLR, !- Name 2.984908E-01, !- Coefficient1 Constant 2.906868E-01, !- Coefficient2 x 4.089411E-01, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YT 1881kW/6.77COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1881 kW (535 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1881kW/6.77COP/VSD, !- Name 1881400, !- Reference Capacity {W} 6.77, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09464, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1881kW/6.77COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1881kW/6.77COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1881kW/6.77COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1881kW/6.77COP/VSD CAPFT, !- Name 5.065247E-01, !- Coefficient1 Constant -4.158206E-03, !- Coefficient2 x -2.681976E-03, !- Coefficient3 x**2 4.763436E-02, !- Coefficient4 y -1.951270E-03, !- Coefficient5 y**2 3.994399E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1881kW/6.77COP/VSD EIRFT, !- Name 6.175311E-01, !- Coefficient1 Constant -3.913241E-02, !- Coefficient2 x 6.177961E-04, !- Coefficient3 x**2 2.775640E-02, !- Coefficient4 y -2.151466E-04, !- Coefficient5 y**2 5.514895E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1881kW/6.77COP/VSD EIRFPLR, !- Name 6.087656E-02, !- Coefficient1 Constant 4.842164E-01, !- Coefficient2 x 4.571519E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YK 1881kW/6.53COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 1881 kW (535 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 1881kW/6.53COP/Vanes, !- Name 1881400, !- Reference Capacity {W} 6.53, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.04397, !- Reference Chilled Water Flow Rate {m3/s} 0.1041, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 1881kW/6.53COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 1881kW/6.53COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 1881kW/6.53COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 1881kW/6.53COP/Vanes CAPFT, !- Name 8.561286E-01, !- Coefficient1 Constant 4.130164E-02, !- Coefficient2 x -7.109335E-04, !- Coefficient3 x**2 4.306273E-03, !- Coefficient4 y -6.336613E-04, !- Coefficient5 y**2 7.211635E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 9.44, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 1881kW/6.53COP/Vanes EIRFT, !- Name 4.434989E-01, !- Coefficient1 Constant 4.361264E-02, !- Coefficient2 x -1.733337E-03, !- Coefficient3 x**2 9.915503E-03, !- Coefficient4 y 4.312717E-04, !- Coefficient5 y**2 -1.122346E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 9.44, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 1881kW/6.53COP/Vanes EIRFPLR, !- Name 3.626231E-02, !- Coefficient1 Constant 5.378739E-01, !- Coefficient2 x 4.265341E-01, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YK 1881kW/6.53COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 1881 kW (535 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 1881kW/6.53COP/Vanes_2, !- Name 1881400, !- Reference Capacity {W} 6.53, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.04397, !- Reference Chilled Water Flow Rate {m3/s} 0.1041, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 1881kW/6.53COP/Vanes CAPFT_2, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 1881kW/6.53COP/Vanes EIRFT_2, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 1881kW/6.53COP/Vanes EIRFPLR_2, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 1881kW/6.53COP/Vanes CAPFT_2, !- Name 8.561286E-01, !- Coefficient1 Constant 4.130164E-02, !- Coefficient2 x -7.109335E-04, !- Coefficient3 x**2 4.306273E-03, !- Coefficient4 y -6.336613E-04, !- Coefficient5 y**2 7.211635E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 9.44, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 1881kW/6.53COP/Vanes EIRFT_2, !- Name 4.434989E-01, !- Coefficient1 Constant 4.361264E-02, !- Coefficient2 x -1.733337E-03, !- Coefficient3 x**2 9.915503E-03, !- Coefficient4 y 4.312717E-04, !- Coefficient5 y**2 -1.122346E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 9.44, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 1881kW/6.53COP/Vanes EIRFPLR_2, !- Name 5.272116E-02, !- Coefficient1 Constant 4.176382E-01, !- Coefficient2 x 5.310870E-01, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller McQuay PEH 1895kW/6.42COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1895 kW (539 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PEH 1895kW/6.42COP/Vanes, !- Name 1895400, !- Reference Capacity {W} 6.42, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09085, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PEH 1895kW/6.42COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1895kW/6.42COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1895kW/6.42COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.09, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1895kW/6.42COP/Vanes CAPFT, !- Name 8.573195E-01, !- Coefficient1 Constant -1.131937E-01, !- Coefficient2 x 3.444205E-03, !- Coefficient3 x**2 4.865045E-02, !- Coefficient4 y -2.103805E-03, !- Coefficient5 y**2 4.986639E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1895kW/6.42COP/Vanes EIRFT, !- Name 3.915073E-01, !- Coefficient1 Constant -4.399727E-02, !- Coefficient2 x -3.868294E-06, !- Coefficient3 x**2 4.623771E-02, !- Coefficient4 y -7.092319E-04, !- Coefficient5 y**2 1.372133E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PEH 1895kW/6.42COP/Vanes EIRFPLR, !- Name 2.592598E-01, !- Coefficient1 Constant 1.425462E-01, !- Coefficient2 x 5.966041E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.09; !- Maximum Value of x ! ElectricEIRChiller York YT 1934kW/7.55COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1934 kW (550 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 1934kW/7.55COP/Vanes, !- Name 1934100, !- Reference Capacity {W} 7.55, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 13.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05552, !- Reference Chilled Water Flow Rate {m3/s} 0.08675, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 1934kW/7.55COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 1934kW/7.55COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 1934kW/7.55COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1934kW/7.55COP/Vanes CAPFT, !- Name 4.420318E-02, !- Coefficient1 Constant 1.103599E-01, !- Coefficient2 x -2.597752E-03, !- Coefficient3 x**2 7.043754E-02, !- Coefficient4 y -2.138316E-03, !- Coefficient5 y**2 -4.696924E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 1934kW/7.55COP/Vanes EIRFT, !- Name 1.173674E+00, !- Coefficient1 Constant -1.301647E-01, !- Coefficient2 x 5.588446E-03, !- Coefficient3 x**2 8.605153E-03, !- Coefficient4 y 7.234201E-05, !- Coefficient5 y**2 1.314581E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 1934kW/7.55COP/Vanes EIRFPLR, !- Name 1.706237E-01, !- Coefficient1 Constant 6.063362E-01, !- Coefficient2 x 2.170672E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller McQuay PEH 1934kW/6.01COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1934 kW (550 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PEH 1934kW/6.01COP/Vanes, !- Name 1934100, !- Reference Capacity {W} 6.01, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 22.78, !- Reference Entering Condenser Fluid Temperature {C} 0.05552, !- Reference Chilled Water Flow Rate {m3/s} 0.07981, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PEH 1934kW/6.01COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1934kW/6.01COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PEH 1934kW/6.01COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.08, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1934kW/6.01COP/Vanes CAPFT, !- Name 2.893111E-01, !- Coefficient1 Constant -3.834949E-02, !- Coefficient2 x 1.757934E-03, !- Coefficient3 x**2 8.665805E-02, !- Coefficient4 y -2.597243E-03, !- Coefficient5 y**2 2.413315E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PEH 1934kW/6.01COP/Vanes EIRFT, !- Name 2.885371E-01, !- Coefficient1 Constant -5.877829E-03, !- Coefficient2 x -1.807763E-03, !- Coefficient3 x**2 5.193076E-02, !- Coefficient4 y -7.936373E-04, !- Coefficient5 y**2 1.108590E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PEH 1934kW/6.01COP/Vanes EIRFPLR, !- Name 3.849256E-01, !- Coefficient1 Constant -2.369152E-01, !- Coefficient2 x 8.496351E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.08; !- Maximum Value of x ! ElectricEIRChiller McQuay WDC 1973kW/6.28COP/Vanes ! Manufacturer = McQuay, Model Line = WDC ! Reference Capacity = 1973 kW (561 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay WDC 1973kW/6.28COP/Vanes, !- Name 1972800, !- Reference Capacity {W} 6.28, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.04145, !- Reference Chilled Water Flow Rate {m3/s} 0.09337, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay WDC 1973kW/6.28COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay WDC 1973kW/6.28COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay WDC 1973kW/6.28COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay WDC 1973kW/6.28COP/Vanes CAPFT, !- Name 1.110884E+00, !- Coefficient1 Constant 7.376077E-02, !- Coefficient2 x -5.957719E-03, !- Coefficient3 x**2 -2.861037E-02, !- Coefficient4 y -2.129104E-04, !- Coefficient5 y**2 2.547028E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay WDC 1973kW/6.28COP/Vanes EIRFT, !- Name 1.097378E+00, !- Coefficient1 Constant -3.018324E-02, !- Coefficient2 x -2.792200E-03, !- Coefficient3 x**2 -1.252428E-02, !- Coefficient4 y 2.095232E-04, !- Coefficient5 y**2 2.409252E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay WDC 1973kW/6.28COP/Vanes EIRFPLR, !- Name 1.282891E-01, !- Coefficient1 Constant 2.722981E-01, !- Coefficient2 x 6.012232E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller York YK 1997kW/7.24COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 1997 kW (568 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 1997kW/7.24COP/Vanes, !- Name 1997400, !- Reference Capacity {W} 7.24, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.04397, !- Reference Chilled Water Flow Rate {m3/s} 0.1041, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 1997kW/7.24COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 1997kW/7.24COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 1997kW/7.24COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 1997kW/7.24COP/Vanes CAPFT, !- Name 9.058272E-01, !- Coefficient1 Constant 1.309175E-01, !- Coefficient2 x -3.446620E-03, !- Coefficient3 x**2 -3.166792E-02, !- Coefficient4 y 2.325200E-04, !- Coefficient5 y**2 -4.892256E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 1997kW/7.24COP/Vanes EIRFT, !- Name 1.188194E-01, !- Coefficient1 Constant 8.769791E-02, !- Coefficient2 x -1.692086E-03, !- Coefficient3 x**2 2.209962E-03, !- Coefficient4 y 1.327958E-03, !- Coefficient5 y**2 -3.249833E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 1997kW/7.24COP/Vanes EIRFPLR, !- Name 9.359332E-02, !- Coefficient1 Constant 5.873752E-01, !- Coefficient2 x 3.208990E-01, !- Coefficient3 x**2 0.18, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller McQuay PFH 2043kW/8.44COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 2043 kW (581 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PFH 2043kW/8.44COP/Vanes, !- Name 2043100, !- Reference Capacity {W} 8.44, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.04757, !- Reference Chilled Water Flow Rate {m3/s} 0.06814, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PFH 2043kW/8.44COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 2043kW/8.44COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 2043kW/8.44COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.08, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.08, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 2043kW/8.44COP/Vanes CAPFT, !- Name 8.383569E-01, !- Coefficient1 Constant 4.716323E-02, !- Coefficient2 x -2.515385E-03, !- Coefficient3 x**2 -3.773603E-03, !- Coefficient4 y -9.186324E-04, !- Coefficient5 y**2 2.177057E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 2043kW/8.44COP/Vanes EIRFT, !- Name 7.891693E-01, !- Coefficient1 Constant 1.168677E-02, !- Coefficient2 x -1.825470E-03, !- Coefficient3 x**2 1.278749E-02, !- Coefficient4 y 1.521317E-04, !- Coefficient5 y**2 2.156746E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PFH 2043kW/8.44COP/Vanes EIRFPLR, !- Name 1.225600E-01, !- Coefficient1 Constant 3.070007E-01, !- Coefficient2 x 5.712759E-01, !- Coefficient3 x**2 0.08, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 2043kW/9.08COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2043 kW (581 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 2043kW/9.08COP/Vanes, !- Name 2043100, !- Reference Capacity {W} 9.08, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 18.33, !- Reference Entering Condenser Fluid Temperature {C} 0.09085, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 2043kW/9.08COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2043kW/9.08COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2043kW/9.08COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.28, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.28, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2043kW/9.08COP/Vanes CAPFT, !- Name -1.340241E+00, !- Coefficient1 Constant 7.634284E-03, !- Coefficient2 x -3.044184E-03, !- Coefficient3 x**2 1.991327E-01, !- Coefficient4 y -4.530240E-03, !- Coefficient5 y**2 2.700765E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.33, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2043kW/9.08COP/Vanes EIRFT, !- Name 6.065177E-01, !- Coefficient1 Constant 1.178669E-02, !- Coefficient2 x 2.098586E-03, !- Coefficient3 x**2 1.532536E-02, !- Coefficient4 y 6.756887E-04, !- Coefficient5 y**2 -2.629852E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.33, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 2043kW/9.08COP/Vanes EIRFPLR, !- Name 2.173752E-01, !- Coefficient1 Constant 4.394720E-01, !- Coefficient2 x 3.431813E-01, !- Coefficient3 x**2 0.28, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes ! Manufacturer = Carrier, Model Line = 19XL ! Reference Capacity = 2057 kW (585 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes, !- Name 2057200, !- Reference Capacity {W} 6.05, !- Reference COP {W/W} 7.78, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.08322, !- Reference Chilled Water Flow Rate {m3/s} 0.09722, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.28, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.28, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes CAPFT, !- Name 7.737452E-01, !- Coefficient1 Constant -1.249478E-02, !- Coefficient2 x -3.193419E-03, !- Coefficient3 x**2 2.110302E-02, !- Coefficient4 y -1.188413E-03, !- Coefficient5 y**2 3.820335E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes EIRFT, !- Name 8.623086E-01, !- Coefficient1 Constant -5.844490E-02, !- Coefficient2 x -2.284745E-03, !- Coefficient3 x**2 2.469188E-02, !- Coefficient4 y -1.022604E-03, !- Coefficient5 y**2 3.996523E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes EIRFPLR, !- Name 4.041274E-01, !- Coefficient1 Constant -3.861525E-01, !- Coefficient2 x 9.804493E-01, !- Coefficient3 x**2 0.28, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller York YT 2110kW/7.15COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 2110 kW (600 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 2110kW/7.15COP/Vanes, !- Name 2110000, !- Reference Capacity {W} 7.15, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.06057, !- Reference Chilled Water Flow Rate {m3/s} 0.09464, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 2110kW/7.15COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 2110kW/7.15COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 2110kW/7.15COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 2110kW/7.15COP/Vanes CAPFT, !- Name 5.359238E-01, !- Coefficient1 Constant 1.785857E-02, !- Coefficient2 x 1.579272E-03, !- Coefficient3 x**2 4.522868E-02, !- Coefficient4 y -1.632172E-03, !- Coefficient5 y**2 6.008061E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 2110kW/7.15COP/Vanes EIRFT, !- Name 6.270855E-01, !- Coefficient1 Constant -4.119654E-02, !- Coefficient2 x 1.327107E-03, !- Coefficient3 x**2 2.661446E-02, !- Coefficient4 y -1.856827E-04, !- Coefficient5 y**2 5.094942E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 2110kW/7.15COP/Vanes EIRFPLR, !- Name 2.469187E-01, !- Coefficient1 Constant 1.862690E-01, !- Coefficient2 x 5.660904E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller McQuay PFH 2124kW/6.03COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 2124 kW (604 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PFH 2124kW/6.03COP/Vanes, !- Name 2124000, !- Reference Capacity {W} 6.03, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.05552, !- Reference Chilled Water Flow Rate {m3/s} 0.07981, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PFH 2124kW/6.03COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 2124kW/6.03COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 2124kW/6.03COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 2124kW/6.03COP/Vanes CAPFT, !- Name 1.040134E+00, !- Coefficient1 Constant -1.745650E-02, !- Coefficient2 x 1.084856E-03, !- Coefficient3 x**2 6.629328E-03, !- Coefficient4 y -8.008991E-04, !- Coefficient5 y**2 1.567769E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 2124kW/6.03COP/Vanes EIRFT, !- Name 1.157799E+00, !- Coefficient1 Constant -3.621524E-02, !- Coefficient2 x -3.684818E-03, !- Coefficient3 x**2 -1.202959E-02, !- Coefficient4 y -7.378548E-05, !- Coefficient5 y**2 3.787365E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PFH 2124kW/6.03COP/Vanes EIRFPLR, !- Name 1.051419E-01, !- Coefficient1 Constant 2.033679E-01, !- Coefficient2 x 6.902026E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YK 2159kW/6.85COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2159 kW (614 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 2159kW/6.85COP/Vanes, !- Name 2159200, !- Reference Capacity {W} 6.85, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 2159kW/6.85COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 2159kW/6.85COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 2159kW/6.85COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2159kW/6.85COP/Vanes CAPFT, !- Name 6.322235E-01, !- Coefficient1 Constant 1.553954E-02, !- Coefficient2 x -9.149770E-03, !- Coefficient3 x**2 5.284289E-02, !- Coefficient4 y -2.818835E-03, !- Coefficient5 y**2 7.074096E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2159kW/6.85COP/Vanes EIRFT, !- Name 9.106730E-01, !- Coefficient1 Constant -3.786410E-03, !- Coefficient2 x -1.084261E-03, !- Coefficient3 x**2 -7.148246E-03, !- Coefficient4 y 5.178799E-04, !- Coefficient5 y**2 1.818623E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 2159kW/6.85COP/Vanes EIRFPLR, !- Name 2.595694E-01, !- Coefficient1 Constant 1.889684E-01, !- Coefficient2 x 5.518450E-01, !- Coefficient3 x**2 0.14, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 2184kW/6.78COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2184 kW (621 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 2184kW/6.78COP/Vanes, !- Name 2183800, !- Reference Capacity {W} 6.78, !- Reference COP {W/W} 7.78, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.04883, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 2184kW/6.78COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2184kW/6.78COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2184kW/6.78COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2184kW/6.78COP/Vanes CAPFT, !- Name 1.235680E+00, !- Coefficient1 Constant 2.213527E-02, !- Coefficient2 x -1.770186E-03, !- Coefficient3 x**2 -1.131594E-02, !- Coefficient4 y -5.008696E-04, !- Coefficient5 y**2 1.356522E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.33, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2184kW/6.78COP/Vanes EIRFT, !- Name 8.877947E-01, !- Coefficient1 Constant -1.334886E-02, !- Coefficient2 x 1.689581E-03, !- Coefficient3 x**2 -1.599710E-03, !- Coefficient4 y 7.884945E-04, !- Coefficient5 y**2 -1.584900E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.33, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 2184kW/6.78COP/Vanes EIRFPLR, !- Name 8.942647E-02, !- Coefficient1 Constant 5.249540E-01, !- Coefficient2 x 3.850801E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller York YK 2201kW/6.69COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2201 kW (626 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 2201kW/6.69COP/Vanes, !- Name 2201400, !- Reference Capacity {W} 6.69, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 2201kW/6.69COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 2201kW/6.69COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 2201kW/6.69COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2201kW/6.69COP/Vanes CAPFT, !- Name 5.474968E-01, !- Coefficient1 Constant -4.800356E-03, !- Coefficient2 x -6.845886E-03, !- Coefficient3 x**2 6.302552E-02, !- Coefficient4 y -2.911528E-03, !- Coefficient5 y**2 6.598690E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2201kW/6.69COP/Vanes EIRFT, !- Name 8.234137E-01, !- Coefficient1 Constant 1.308264E-02, !- Coefficient2 x -1.147806E-03, !- Coefficient3 x**2 -4.071161E-03, !- Coefficient4 y 5.220869E-04, !- Coefficient5 y**2 -6.312495E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 2201kW/6.69COP/Vanes EIRFPLR, !- Name 2.653493E-01, !- Coefficient1 Constant 1.444620E-01, !- Coefficient2 x 5.911158E-01, !- Coefficient3 x**2 0.14, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller York YT 2233kW/9.54COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 2233 kW (635 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 2233kW/9.54COP/VSD, !- Name 2233000, !- Reference Capacity {W} 9.54, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.06214, !- Reference Chilled Water Flow Rate {m3/s} 0.1164, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 2233kW/9.54COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 2233kW/9.54COP/VSD CAPFT, !- Name 7.139071E-01, !- Coefficient1 Constant -4.174477E-02, !- Coefficient2 x 5.188589E-03, !- Coefficient3 x**2 4.350540E-02, !- Coefficient4 y -1.632005E-03, !- Coefficient5 y**2 9.364594E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFT, !- Name 7.145541E-01, !- Coefficient1 Constant -1.074745E-02, !- Coefficient2 x -1.010204E-03, !- Coefficient3 x**2 3.081188E-02, !- Coefficient4 y 1.061200E-04, !- Coefficient5 y**2 -4.325357E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFPLR, !- Name 7.308728E-02, !- Coefficient1 Constant 1.513521E-01, !- Coefficient2 x 7.709311E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller York YT 2233kW/9.54COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 2233 kW (635 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YT 2233kW/9.54COP/VSD_2, !- Name 2233000, !- Reference Capacity {W} 9.54, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.06107, !- Reference Chilled Water Flow Rate {m3/s} 0.11451, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 2233kW/9.54COP/VSD CAPFT_2, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFT_2, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFPLR_2, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 2233kW/9.54COP/VSD CAPFT_2, !- Name 7.585741E-01, !- Coefficient1 Constant -5.127829E-02, !- Coefficient2 x 5.848602E-03, !- Coefficient3 x**2 4.235544E-02, !- Coefficient4 y -1.606561E-03, !- Coefficient5 y**2 9.364594E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFT_2, !- Name 7.563409E-01, !- Coefficient1 Constant -1.966623E-02, !- Coefficient2 x -3.927494E-04, !- Coefficient3 x**2 2.973607E-02, !- Coefficient4 y 1.299230E-04, !- Coefficient5 y**2 -4.325357E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFPLR_2, !- Name 6.917141E-02, !- Coefficient1 Constant 1.743339E-01, !- Coefficient2 x 7.524059E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller York YK 2237kW/6.41COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2237 kW (636 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 2237kW/6.41COP/Vanes, !- Name 2236600, !- Reference Capacity {W} 6.41, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 2237kW/6.41COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 2237kW/6.41COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 2237kW/6.41COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.13, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.13, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2237kW/6.41COP/Vanes CAPFT, !- Name 6.899710E-01, !- Coefficient1 Constant -1.413334E-03, !- Coefficient2 x -1.109323E-03, !- Coefficient3 x**2 4.078120E-02, !- Coefficient4 y -1.785625E-03, !- Coefficient5 y**2 2.977821E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2237kW/6.41COP/Vanes EIRFT, !- Name 8.567950E-01, !- Coefficient1 Constant 3.354557E-03, !- Coefficient2 x 1.047901E-03, !- Coefficient3 x**2 -5.217250E-03, !- Coefficient4 y 6.565310E-04, !- Coefficient5 y**2 -1.361740E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 2237kW/6.41COP/Vanes EIRFPLR, !- Name 2.605354E-01, !- Coefficient1 Constant 2.125571E-01, !- Coefficient2 x 5.269144E-01, !- Coefficient3 x**2 0.13, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller York YK 2275kW/6.32COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2275 kW (647 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 2275kW/6.32COP/Vanes, !- Name 2275200, !- Reference Capacity {W} 6.32, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 2275kW/6.32COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 2275kW/6.32COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 2275kW/6.32COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.13, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.13, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2275kW/6.32COP/Vanes CAPFT, !- Name 7.655381E-01, !- Coefficient1 Constant -1.570198E-02, !- Coefficient2 x -3.331784E-04, !- Coefficient3 x**2 3.610649E-02, !- Coefficient4 y -1.642944E-03, !- Coefficient5 y**2 3.016087E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2275kW/6.32COP/Vanes EIRFT, !- Name 8.164026E-01, !- Coefficient1 Constant 1.682749E-02, !- Coefficient2 x 6.236204E-05, !- Coefficient3 x**2 -6.058245E-03, !- Coefficient4 y 7.008780E-04, !- Coefficient5 y**2 -1.422110E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 2275kW/6.32COP/Vanes EIRFPLR, !- Name 2.702822E-01, !- Coefficient1 Constant 1.837680E-01, !- Coefficient2 x 5.455683E-01, !- Coefficient3 x**2 0.13, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YK 2275kW/6.32COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2275 kW (647 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 2275kW/6.32COP/Vanes_2, !- Name 2275200, !- Reference Capacity {W} 6.32, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 2275kW/6.32COP/Vanes CAPFT_2, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 2275kW/6.32COP/Vanes EIRFT_2, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 2275kW/6.32COP/Vanes EIRFPLR_2, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.13, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.13, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2275kW/6.32COP/Vanes CAPFT_2, !- Name 1.034673E+00, !- Coefficient1 Constant -1.091064E-02, !- Coefficient2 x 9.019479E-04, !- Coefficient3 x**2 9.686229E-03, !- Coefficient4 y -9.160783E-04, !- Coefficient5 y**2 2.045641E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2275kW/6.32COP/Vanes EIRFT_2, !- Name 8.326094E-01, !- Coefficient1 Constant -6.056615E-03, !- Coefficient2 x -3.016626E-04, !- Coefficient3 x**2 -2.498578E-03, !- Coefficient4 y 4.933363E-04, !- Coefficient5 y**2 -3.125632E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 2275kW/6.32COP/Vanes EIRFPLR_2, !- Name 2.735485E-01, !- Coefficient1 Constant 2.163041E-01, !- Coefficient2 x 5.099054E-01, !- Coefficient3 x**2 0.13, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 2300kW/8.10COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2300 kW (654 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 2300kW/8.10COP/Vanes, !- Name 2299900, !- Reference Capacity {W} 8.10, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09085, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 2300kW/8.10COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2300kW/8.10COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2300kW/8.10COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.23, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.23, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2300kW/8.10COP/Vanes CAPFT, !- Name 6.268137E-01, !- Coefficient1 Constant 3.920902E-02, !- Coefficient2 x -5.475881E-04, !- Coefficient3 x**2 3.072669E-02, !- Coefficient4 y -1.474615E-03, !- Coefficient5 y**2 8.577783E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2300kW/8.10COP/Vanes EIRFT, !- Name 7.178121E-01, !- Coefficient1 Constant 6.561784E-03, !- Coefficient2 x 8.193740E-06, !- Coefficient3 x**2 2.319141E-02, !- Coefficient4 y -1.755983E-06, !- Coefficient5 y**2 -8.834410E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 2300kW/8.10COP/Vanes EIRFPLR, !- Name 1.161399E-01, !- Coefficient1 Constant 4.347344E-01, !- Coefficient2 x 4.486380E-01, !- Coefficient3 x**2 0.23, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 2317kW/6.33COP/VSD ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2317 kW (659 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 2317kW/6.33COP/VSD, !- Name 2317400, !- Reference Capacity {W} 6.33, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.09085, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 2317kW/6.33COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2317kW/6.33COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2317kW/6.33COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2317kW/6.33COP/VSD CAPFT, !- Name 7.277716E-01, !- Coefficient1 Constant 1.018101E-02, !- Coefficient2 x -6.282438E-04, !- Coefficient3 x**2 1.337701E-02, !- Coefficient4 y -5.050352E-04, !- Coefficient5 y**2 1.527259E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2317kW/6.33COP/VSD EIRFT, !- Name 3.502330E-01, !- Coefficient1 Constant -2.301510E-02, !- Coefficient2 x 5.749596E-04, !- Coefficient3 x**2 1.902421E-02, !- Coefficient4 y 3.109974E-04, !- Coefficient5 y**2 -4.714517E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 2317kW/6.33COP/VSD EIRFPLR, !- Name 9.861441E-02, !- Coefficient1 Constant 5.297727E-01, !- Coefficient2 x 3.707229E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 2391 kW (680 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes, !- Name 2391300, !- Reference Capacity {W} 6.77, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.06858, !- Reference Chilled Water Flow Rate {m3/s} 0.0846, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes CAPFT, !- Name 3.676388E-01, !- Coefficient1 Constant -5.087680E-02, !- Coefficient2 x -1.772675E-03, !- Coefficient3 x**2 9.518123E-02, !- Coefficient4 y -3.403878E-03, !- Coefficient5 y**2 4.526983E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes EIRFT, !- Name 6.266646E-01, !- Coefficient1 Constant -2.367443E-02, !- Coefficient2 x 4.031296E-04, !- Coefficient3 x**2 2.827714E-02, !- Coefficient4 y -1.985242E-04, !- Coefficient5 y**2 -1.470260E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes EIRFPLR, !- Name 3.036386E-01, !- Coefficient1 Constant 2.524850E-01, !- Coefficient2 x 4.429285E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Carrier 19XR 2391kW/6.44COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 2391 kW (680 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19XR 2391kW/6.44COP/VSD, !- Name 2391300, !- Reference Capacity {W} 6.44, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.06858, !- Reference Chilled Water Flow Rate {m3/s} 0.0846, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19XR 2391kW/6.44COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 2391kW/6.44COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19XR 2391kW/6.44COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 2391kW/6.44COP/VSD CAPFT, !- Name 3.676388E-01, !- Coefficient1 Constant -5.087680E-02, !- Coefficient2 x -1.772675E-03, !- Coefficient3 x**2 9.518123E-02, !- Coefficient4 y -3.403878E-03, !- Coefficient5 y**2 4.526983E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19XR 2391kW/6.44COP/VSD EIRFT, !- Name 6.230142E-01, !- Coefficient1 Constant -2.371649E-02, !- Coefficient2 x 3.996265E-04, !- Coefficient3 x**2 2.874515E-02, !- Coefficient4 y -2.115103E-04, !- Coefficient5 y**2 -1.526191E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19XR 2391kW/6.44COP/VSD EIRFPLR, !- Name 9.774812E-02, !- Coefficient1 Constant 2.490111E-01, !- Coefficient2 x 6.539378E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YK 2412kW/5.58COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2412 kW (686 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 2412kW/5.58COP/Vanes, !- Name 2412400, !- Reference Capacity {W} 5.58, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.09085, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 2412kW/5.58COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 2412kW/5.58COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 2412kW/5.58COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.12, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.12, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2412kW/5.58COP/Vanes CAPFT, !- Name 7.473817E-01, !- Coefficient1 Constant 8.069214E-03, !- Coefficient2 x 8.433986E-05, !- Coefficient3 x**2 1.925706E-02, !- Coefficient4 y -7.505775E-04, !- Coefficient5 y**2 1.174526E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2412kW/5.58COP/Vanes EIRFT, !- Name 4.626807E-01, !- Coefficient1 Constant -2.305674E-02, !- Coefficient2 x 1.169126E-03, !- Coefficient3 x**2 3.431185E-02, !- Coefficient4 y -3.396938E-04, !- Coefficient5 y**2 -7.381352E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 2412kW/5.58COP/Vanes EIRFPLR, !- Name 2.472427E-01, !- Coefficient1 Constant 7.531481E-01, !- Coefficient2 x 8.643617E-04, !- Coefficient3 x**2 0.12, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller McQuay PFH 2462kW/6.67COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 2462 kW (700 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PFH 2462kW/6.67COP/Vanes, !- Name 2461600, !- Reference Capacity {W} 6.67, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 22.78, !- Reference Entering Condenser Fluid Temperature {C} 0.07066, !- Reference Chilled Water Flow Rate {m3/s} 0.10157, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PFH 2462kW/6.67COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 2462kW/6.67COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 2462kW/6.67COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 2462kW/6.67COP/Vanes CAPFT, !- Name 9.561527E-01, !- Coefficient1 Constant 5.742999E-02, !- Coefficient2 x -4.868087E-03, !- Coefficient3 x**2 1.799507E-02, !- Coefficient4 y -1.793848E-03, !- Coefficient5 y**2 3.194186E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 2462kW/6.67COP/Vanes EIRFT, !- Name 5.462893E-01, !- Coefficient1 Constant 2.854651E-02, !- Coefficient2 x -5.770782E-03, !- Coefficient3 x**2 1.634571E-02, !- Coefficient4 y -2.645314E-04, !- Coefficient5 y**2 2.138325E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PFH 2462kW/6.67COP/Vanes EIRFPLR, !- Name 9.222135E-02, !- Coefficient1 Constant 5.830980E-01, !- Coefficient2 x 3.250019E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2567 kW (730 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD, !- Name 2567100, !- Reference Capacity {W} 11.77, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.12113, !- Reference Chilled Water Flow Rate {m3/s} 0.15142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.11, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.11, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD CAPFT, !- Name 4.549428E-01, !- Coefficient1 Constant 2.748161E-02, !- Coefficient2 x -4.298342E-03, !- Coefficient3 x**2 4.363928E-02, !- Coefficient4 y -1.352509E-03, !- Coefficient5 y**2 2.964225E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD EIRFT, !- Name 4.561990E-01, !- Coefficient1 Constant -3.333063E-02, !- Coefficient2 x -1.763576E-03, !- Coefficient3 x**2 5.624520E-02, !- Coefficient4 y -8.535085E-05, !- Coefficient5 y**2 3.567604E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD EIRFPLR, !- Name 1.039419E-01, !- Coefficient1 Constant 4.184975E-01, !- Coefficient2 x 4.774210E-01, !- Coefficient3 x**2 0.11, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller York YK 2771kW/6.84COP/VSD ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2771 kW (788 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:EIR, ElectricEIRChiller York YK 2771kW/6.84COP/VSD, !- Name 2771100, !- Reference Capacity {W} 6.84, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.10094, !- Reference Chilled Water Flow Rate {m3/s} 0.15142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 2771kW/6.84COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 2771kW/6.84COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 2771kW/6.84COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2771kW/6.84COP/VSD CAPFT, !- Name 7.734286E-01, !- Coefficient1 Constant 4.848829E-02, !- Coefficient2 x -1.859209E-03, !- Coefficient3 x**2 2.611971E-02, !- Coefficient4 y -1.243562E-03, !- Coefficient5 y**2 7.210181E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 2771kW/6.84COP/VSD EIRFT, !- Name 7.203736E-01, !- Coefficient1 Constant 1.030460E-02, !- Coefficient2 x -7.854237E-04, !- Coefficient3 x**2 -1.206349E-03, !- Coefficient4 y 8.210060E-04, !- Coefficient5 y**2 -1.455414E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 2771kW/6.84COP/VSD EIRFPLR, !- Name 8.653354E-02, !- Coefficient1 Constant 1.737382E-01, !- Coefficient2 x 7.403679E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 2799kW/6.40COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2799 kW (796 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 2799kW/6.40COP/Vanes, !- Name 2799200, !- Reference Capacity {W} 6.40, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.09893, !- Reference Chilled Water Flow Rate {m3/s} 0.13761, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 2799kW/6.40COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2799kW/6.40COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 2799kW/6.40COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2799kW/6.40COP/Vanes CAPFT, !- Name 2.210324E-01, !- Coefficient1 Constant -2.752320E-02, !- Coefficient2 x 4.903763E-04, !- Coefficient3 x**2 7.337449E-02, !- Coefficient4 y -1.919426E-03, !- Coefficient5 y**2 1.935659E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 2799kW/6.40COP/Vanes EIRFT, !- Name 2.267558E-01, !- Coefficient1 Constant -7.615857E-02, !- Coefficient2 x 2.140583E-03, !- Coefficient3 x**2 7.088812E-02, !- Coefficient4 y -1.124968E-03, !- Coefficient5 y**2 6.089843E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 2799kW/6.40COP/Vanes EIRFPLR, !- Name 3.023576E-01, !- Coefficient1 Constant -2.893592E-02, !- Coefficient2 x 7.262269E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller York YT 3133kW/9.16COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 3133 kW (891 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YT 3133kW/9.16COP/Vanes, !- Name 3133300, !- Reference Capacity {W} 9.16, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.08076, !- Reference Chilled Water Flow Rate {m3/s} 0.12618, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YT 3133kW/9.16COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YT 3133kW/9.16COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YT 3133kW/9.16COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.07, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.07, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 3133kW/9.16COP/Vanes CAPFT, !- Name 7.607419E-01, !- Coefficient1 Constant 1.323998E-02, !- Coefficient2 x 6.902287E-04, !- Coefficient3 x**2 1.510969E-02, !- Coefficient4 y -9.443341E-04, !- Coefficient5 y**2 1.484396E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YT 3133kW/9.16COP/Vanes EIRFT, !- Name 9.150153E-01, !- Coefficient1 Constant -3.956395E-02, !- Coefficient2 x 1.865473E-03, !- Coefficient3 x**2 1.810633E-02, !- Coefficient4 y 2.900613E-04, !- Coefficient5 y**2 -4.199110E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YT 3133kW/9.16COP/Vanes EIRFPLR, !- Name 1.387579E-01, !- Coefficient1 Constant 6.435208E-01, !- Coefficient2 x 2.155990E-01, !- Coefficient3 x**2 0.07, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller McQuay PFH 3165kW/6.48COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 3165 kW (900 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PFH 3165kW/6.48COP/Vanes, !- Name 3165000, !- Reference Capacity {W} 6.48, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 22.78, !- Reference Entering Condenser Fluid Temperature {C} 0.09085, !- Reference Chilled Water Flow Rate {m3/s} 0.13627, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PFH 3165kW/6.48COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 3165kW/6.48COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 3165kW/6.48COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 3165kW/6.48COP/Vanes CAPFT, !- Name 1.342558E+00, !- Coefficient1 Constant 7.520735E-02, !- Coefficient2 x -8.988936E-03, !- Coefficient3 x**2 -3.340001E-02, !- Coefficient4 y -6.065934E-04, !- Coefficient5 y**2 4.684791E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 3165kW/6.48COP/Vanes EIRFT, !- Name 9.347904E-01, !- Coefficient1 Constant 6.551597E-02, !- Coefficient2 x -1.242676E-02, !- Coefficient3 x**2 -2.799974E-02, !- Coefficient4 y 3.323287E-04, !- Coefficient5 y**2 4.803491E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PFH 3165kW/6.48COP/Vanes EIRFPLR, !- Name 1.054110E-01, !- Coefficient1 Constant 4.090646E-01, !- Coefficient2 x 4.838839E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller McQuay PFH 4020kW/7.35COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 4020 kW (1143 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller McQuay PFH 4020kW/7.35COP/Vanes, !- Name 4019500, !- Reference Capacity {W} 7.35, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 12.78, !- Reference Entering Condenser Fluid Temperature {C} 0.07874, !- Reference Chilled Water Flow Rate {m3/s} 0.09842, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller McQuay PFH 4020kW/7.35COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 4020kW/7.35COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller McQuay PFH 4020kW/7.35COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 4020kW/7.35COP/Vanes CAPFT, !- Name 8.958422E-01, !- Coefficient1 Constant 3.762768E-02, !- Coefficient2 x -3.550080E-03, !- Coefficient3 x**2 -4.322645E-03, !- Coefficient4 y -1.194933E-03, !- Coefficient5 y**2 3.006034E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller McQuay PFH 4020kW/7.35COP/Vanes EIRFT, !- Name 9.322623E-01, !- Coefficient1 Constant -2.157964E-02, !- Coefficient2 x -1.435883E-03, !- Coefficient3 x**2 1.379036E-02, !- Coefficient4 y -1.491048E-04, !- Coefficient5 y**2 1.302075E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller McQuay PFH 4020kW/7.35COP/Vanes EIRFPLR, !- Name 5.763566E-02, !- Coefficient1 Constant 5.964012E-01, !- Coefficient2 x 3.473613E-01, !- Coefficient3 x**2 0.14, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YK 4396kW/6.63COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4396 kW (1250 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 4396kW/6.63COP/Vanes, !- Name 4395800, !- Reference Capacity {W} 6.63, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 4396kW/6.63COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 4396kW/6.63COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 4396kW/6.63COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.41, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.41, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4396kW/6.63COP/Vanes CAPFT, !- Name 3.693621E-01, !- Coefficient1 Constant -7.284715E-02, !- Coefficient2 x -4.871930E-03, !- Coefficient3 x**2 1.223355E-01, !- Coefficient4 y -5.368259E-03, !- Coefficient5 y**2 1.035036E-02, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4396kW/6.63COP/Vanes EIRFT, !- Name 5.913358E-01, !- Coefficient1 Constant -5.974145E-02, !- Coefficient2 x 8.176561E-04, !- Coefficient3 x**2 3.987353E-02, !- Coefficient4 y -8.176694E-04, !- Coefficient5 y**2 1.457994E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 4396kW/6.63COP/Vanes EIRFPLR, !- Name 3.021070E-01, !- Coefficient1 Constant 3.103971E-02, !- Coefficient2 x 6.669726E-01, !- Coefficient3 x**2 0.41, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller York YK 4477kW/6.64COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4477 kW (1273 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 4477kW/6.64COP/Vanes, !- Name 4476700, !- Reference Capacity {W} 6.64, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 4477kW/6.64COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 4477kW/6.64COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 4477kW/6.64COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.41, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.41, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4477kW/6.64COP/Vanes CAPFT, !- Name 4.844230E-01, !- Coefficient1 Constant -9.879643E-02, !- Coefficient2 x -2.516527E-03, !- Coefficient3 x**2 1.144722E-01, !- Coefficient4 y -5.101526E-03, !- Coefficient5 y**2 1.022861E-02, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4477kW/6.64COP/Vanes EIRFT, !- Name 4.264570E-01, !- Coefficient1 Constant -3.391606E-02, !- Coefficient2 x -1.991396E-03, !- Coefficient3 x**2 5.032090E-02, !- Coefficient4 y -1.140771E-03, !- Coefficient5 y**2 1.814692E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 4477kW/6.64COP/Vanes EIRFPLR, !- Name 2.767206E-01, !- Coefficient1 Constant 1.074393E-01, !- Coefficient2 x 6.145706E-01, !- Coefficient3 x**2 0.41, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller York YK 4515kW/6.22COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4515 kW (1284 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 4515kW/6.22COP/Vanes, !- Name 4515400, !- Reference Capacity {W} 6.22, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 4515kW/6.22COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 4515kW/6.22COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 4515kW/6.22COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.40, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.40, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4515kW/6.22COP/Vanes CAPFT, !- Name 3.732405E-01, !- Coefficient1 Constant -7.176618E-03, !- Coefficient2 x -2.588788E-03, !- Coefficient3 x**2 5.381225E-02, !- Coefficient4 y -1.773937E-03, !- Coefficient5 y**2 3.509721E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4515kW/6.22COP/Vanes EIRFT, !- Name 5.908290E-01, !- Coefficient1 Constant 1.028668E-02, !- Coefficient2 x -4.718838E-04, !- Coefficient3 x**2 1.220347E-02, !- Coefficient4 y 4.166971E-04, !- Coefficient5 y**2 -1.484327E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 4515kW/6.22COP/Vanes EIRFPLR, !- Name 2.870815E-01, !- Coefficient1 Constant 3.951784E-01, !- Coefficient2 x 3.177735E-01, !- Coefficient3 x**2 0.40, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YK 4537kW/6.28COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4537 kW (1290 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 4537kW/6.28COP/Vanes, !- Name 4536500, !- Reference Capacity {W} 6.28, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 4537kW/6.28COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 4537kW/6.28COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 4537kW/6.28COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.40, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.40, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4537kW/6.28COP/Vanes CAPFT, !- Name 9.418253E-01, !- Coefficient1 Constant 8.142292E-02, !- Coefficient2 x -9.532713E-03, !- Coefficient3 x**2 3.185018E-02, !- Coefficient4 y -2.583116E-03, !- Coefficient5 y**2 5.294716E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4537kW/6.28COP/Vanes EIRFT, !- Name 7.709829E-01, !- Coefficient1 Constant -2.257680E-02, !- Coefficient2 x 2.492708E-04, !- Coefficient3 x**2 7.635418E-03, !- Coefficient4 y 3.376522E-04, !- Coefficient5 y**2 -3.614203E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 4537kW/6.28COP/Vanes EIRFPLR, !- Name 2.528426E-01, !- Coefficient1 Constant 2.920280E-01, !- Coefficient2 x 4.533447E-01, !- Coefficient3 x**2 0.40, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 4610kW/6.34COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 4610 kW (1311 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 4610kW/6.34COP/Vanes, !- Name 4610300, !- Reference Capacity {W} 6.34, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.19129, !- Reference Chilled Water Flow Rate {m3/s} 0.24757, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 4610kW/6.34COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 4610kW/6.34COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 4610kW/6.34COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 4610kW/6.34COP/Vanes CAPFT, !- Name 8.614836E-01, !- Coefficient1 Constant -3.988130E-03, !- Coefficient2 x -1.643579E-03, !- Coefficient3 x**2 8.882312E-03, !- Coefficient4 y -3.930474E-04, !- Coefficient5 y**2 1.593969E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.33, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 4610kW/6.34COP/Vanes EIRFT, !- Name 7.415078E-01, !- Coefficient1 Constant -4.779029E-02, !- Coefficient2 x -1.028085E-03, !- Coefficient3 x**2 1.423650E-02, !- Coefficient4 y 1.304315E-04, !- Coefficient5 y**2 9.170177E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.33, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 4610kW/6.34COP/Vanes EIRFPLR, !- Name 2.026691E-01, !- Coefficient1 Constant 2.922585E-01, !- Coefficient2 x 5.044422E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes ! Manufacturer = Carrier, Model Line = 19EX ! Reference Capacity = 4667 kW (1327 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes, !- Name 4666600, !- Reference Capacity {W} 6.16, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.40, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.40, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes CAPFT, !- Name 4.084496E-01, !- Coefficient1 Constant -4.396326E-02, !- Coefficient2 x -2.112120E-03, !- Coefficient3 x**2 8.225310E-02, !- Coefficient4 y -3.066058E-03, !- Coefficient5 y**2 5.257550E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes EIRFT, !- Name 5.214788E-01, !- Coefficient1 Constant -8.218594E-03, !- Coefficient2 x -3.068358E-05, !- Coefficient3 x**2 2.152332E-02, !- Coefficient4 y 1.203908E-04, !- Coefficient5 y**2 -7.167755E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes EIRFPLR, !- Name 3.771252E-01, !- Coefficient1 Constant 2.854188E-02, !- Coefficient2 x 5.928670E-01, !- Coefficient3 x**2 0.40, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Trane CVHF 4677kW/6.27COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 4677 kW (1330 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Trane CVHF 4677kW/6.27COP/Vanes, !- Name 4677100, !- Reference Capacity {W} 6.27, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.20138, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CVHF 4677kW/6.27COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 4677kW/6.27COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CVHF 4677kW/6.27COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.41, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.41, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 4677kW/6.27COP/Vanes CAPFT, !- Name 8.449416E-01, !- Coefficient1 Constant -2.116553E-02, !- Coefficient2 x 6.121458E-03, !- Coefficient3 x**2 7.120879E-03, !- Coefficient4 y -1.798959E-04, !- Coefficient5 y**2 -1.349219E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CVHF 4677kW/6.27COP/Vanes EIRFT, !- Name 8.283132E-01, !- Coefficient1 Constant -3.030491E-02, !- Coefficient2 x 4.164965E-03, !- Coefficient3 x**2 -3.278448E-03, !- Coefficient4 y 6.762508E-04, !- Coefficient5 y**2 -1.107762E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CVHF 4677kW/6.27COP/Vanes EIRFPLR, !- Name 3.531562E-01, !- Coefficient1 Constant -2.126229E-01, !- Coefficient2 x 8.597400E-01, !- Coefficient3 x**2 0.41, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YK 4966kW/6.05COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4966 kW (1412 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 4966kW/6.05COP/Vanes, !- Name 4965500, !- Reference Capacity {W} 6.05, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.21198, !- Reference Chilled Water Flow Rate {m3/s} 0.26498, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 4966kW/6.05COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 4966kW/6.05COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 4966kW/6.05COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.12, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.12, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4966kW/6.05COP/Vanes CAPFT, !- Name 5.746486E-01, !- Coefficient1 Constant -3.051134E-02, !- Coefficient2 x -1.964984E-04, !- Coefficient3 x**2 3.309783E-02, !- Coefficient4 y -9.174714E-04, !- Coefficient5 y**2 2.287276E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4966kW/6.05COP/Vanes EIRFT, !- Name 8.229769E-01, !- Coefficient1 Constant -8.128614E-03, !- Coefficient2 x 1.110212E-03, !- Coefficient3 x**2 -3.521351E-03, !- Coefficient4 y 6.129803E-04, !- Coefficient5 y**2 -9.170063E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 4966kW/6.05COP/Vanes EIRFPLR, !- Name 3.416463E-01, !- Coefficient1 Constant 1.947185E-01, !- Coefficient2 x 4.640804E-01, !- Coefficient3 x**2 0.12, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YK 4969kW/7.14COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4969 kW (1413 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 4969kW/7.14COP/Vanes, !- Name 4969000, !- Reference Capacity {W} 7.14, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.17665, !- Reference Chilled Water Flow Rate {m3/s} 0.26498, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 4969kW/7.14COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 4969kW/7.14COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 4969kW/7.14COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.16, !- Minimum Part Load Ratio 1.07, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.16, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4969kW/7.14COP/Vanes CAPFT, !- Name 7.817577E-01, !- Coefficient1 Constant -1.012013E-01, !- Coefficient2 x -1.584389E-03, !- Coefficient3 x**2 7.928475E-02, !- Coefficient4 y -3.674093E-03, !- Coefficient5 y**2 7.999392E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4969kW/7.14COP/Vanes EIRFT, !- Name 7.382162E-01, !- Coefficient1 Constant -5.847442E-02, !- Coefficient2 x 1.117191E-03, !- Coefficient3 x**2 2.168089E-02, !- Coefficient4 y -2.189722E-04, !- Coefficient5 y**2 1.036877E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 4969kW/7.14COP/Vanes EIRFPLR, !- Name 2.259512E-01, !- Coefficient1 Constant 2.320151E-01, !- Coefficient2 x 5.423771E-01, !- Coefficient3 x**2 0.16, !- Minimum Value of x 1.07; !- Maximum Value of x ! ElectricEIRChiller York YK 4969kW/7.07COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4969 kW (1413 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 4969kW/7.07COP/Vanes, !- Name 4969000, !- Reference Capacity {W} 7.07, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.17665, !- Reference Chilled Water Flow Rate {m3/s} 0.26498, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 4969kW/7.07COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 4969kW/7.07COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 4969kW/7.07COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.16, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.16, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4969kW/7.07COP/Vanes CAPFT, !- Name 1.803605E-01, !- Coefficient1 Constant -9.685535E-02, !- Coefficient2 x -5.831135E-03, !- Coefficient3 x**2 1.341596E-01, !- Coefficient4 y -5.279908E-03, !- Coefficient5 y**2 1.045372E-02, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 4969kW/7.07COP/Vanes EIRFT, !- Name 7.220087E-01, !- Coefficient1 Constant -4.480691E-02, !- Coefficient2 x 9.621038E-06, !- Coefficient3 x**2 2.084835E-02, !- Coefficient4 y -2.615973E-04, !- Coefficient5 y**2 1.188407E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 4969kW/7.07COP/Vanes EIRFPLR, !- Name 2.308102E-01, !- Coefficient1 Constant 1.802734E-01, !- Coefficient2 x 5.894894E-01, !- Coefficient3 x**2 0.16, !- Minimum Value of x 1.06; !- Maximum Value of x ! ElectricEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes ! Manufacturer = Carrier, Model Line = 19EX ! Reference Capacity = 4997 kW (1421 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes, !- Name 4997200, !- Reference Capacity {W} 6.40, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.67, !- Reference Entering Condenser Fluid Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.40, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.40, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes CAPFT, !- Name 7.122762E-02, !- Coefficient1 Constant 2.550937E-03, !- Coefficient2 x -9.679482E-03, !- Coefficient3 x**2 9.391204E-02, !- Coefficient4 y -3.505261E-03, !- Coefficient5 y**2 7.309943E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes EIRFT, !- Name 6.685097E-01, !- Coefficient1 Constant -2.541433E-02, !- Coefficient2 x 3.334144E-03, !- Coefficient3 x**2 1.002578E-02, !- Coefficient4 y 5.753780E-04, !- Coefficient5 y**2 -1.801340E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 26.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes EIRFPLR, !- Name 3.364887E-01, !- Coefficient1 Constant 2.122607E-01, !- Coefficient2 x 4.486522E-01, !- Coefficient3 x**2 0.40, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes ! Manufacturer = Carrier, Model Line = 19EX ! Reference Capacity = 5148 kW (1464 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes, !- Name 5148400, !- Reference Capacity {W} 6.34, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.18283, !- Reference Chilled Water Flow Rate {m3/s} 0.25526, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes CAPFT, !- Name 3.564454E-01, !- Coefficient1 Constant 2.020689E-02, !- Coefficient2 x -6.286899E-03, !- Coefficient3 x**2 5.760425E-02, !- Coefficient4 y -2.102376E-03, !- Coefficient5 y**2 4.126650E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes EIRFT, !- Name 5.426449E-01, !- Coefficient1 Constant 3.961314E-03, !- Coefficient2 x -1.195821E-04, !- Coefficient3 x**2 1.609421E-02, !- Coefficient4 y 3.089258E-04, !- Coefficient5 y**2 -1.129525E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes EIRFPLR, !- Name 1.883602E-01, !- Coefficient1 Constant 5.018646E-01, !- Coefficient2 x 3.089569E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YK 5170kW/7.15COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 5170 kW (1470 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 5170kW/7.15COP/Vanes, !- Name 5169500, !- Reference Capacity {W} 7.15, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.17665, !- Reference Chilled Water Flow Rate {m3/s} 0.26498, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 5170kW/7.15COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 5170kW/7.15COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 5170kW/7.15COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.15, !- Minimum Part Load Ratio 1.08, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.15, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 5170kW/7.15COP/Vanes CAPFT, !- Name 1.675697E-01, !- Coefficient1 Constant -1.191228E-01, !- Coefficient2 x -4.328384E-03, !- Coefficient3 x**2 1.355905E-01, !- Coefficient4 y -5.171251E-03, !- Coefficient5 y**2 1.039840E-02, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 5170kW/7.15COP/Vanes EIRFT, !- Name 5.894383E-01, !- Coefficient1 Constant -2.926530E-02, !- Coefficient2 x -1.900238E-03, !- Coefficient3 x**2 2.849479E-02, !- Coefficient4 y -5.105015E-04, !- Coefficient5 y**2 1.702334E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 5170kW/7.15COP/Vanes EIRFPLR, !- Name 2.497273E-01, !- Coefficient1 Constant 1.011288E-01, !- Coefficient2 x 6.499847E-01, !- Coefficient3 x**2 0.15, !- Minimum Value of x 1.08; !- Maximum Value of x ! ElectricEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes ! Manufacturer = Carrier, Model Line = 19EX ! Reference Capacity = 5208 kW (1481 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes, !- Name 5208200, !- Reference Capacity {W} 6.88, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.18283, !- Reference Chilled Water Flow Rate {m3/s} 0.25293, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes CAPFT, !- Name 5.563516E-01, !- Coefficient1 Constant -4.106264E-02, !- Coefficient2 x -3.164992E-03, !- Coefficient3 x**2 5.722234E-02, !- Coefficient4 y -2.313857E-03, !- Coefficient5 y**2 5.377616E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes EIRFT, !- Name 5.198204E-01, !- Coefficient1 Constant -1.523340E-02, !- Coefficient2 x -6.391523E-04, !- Coefficient3 x**2 2.170049E-02, !- Coefficient4 y 2.423693E-05, !- Coefficient5 y**2 1.432604E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes EIRFPLR, !- Name 2.334262E-01, !- Coefficient1 Constant 3.926783E-01, !- Coefficient2 x 3.731320E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YK 5465kW/6.94COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 5465 kW (1554 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 120V-1PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 5465kW/6.94COP/Vanes, !- Name 5464900, !- Reference Capacity {W} 6.94, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.18296, !- Reference Chilled Water Flow Rate {m3/s} 0.27444, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 5465kW/6.94COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 5465kW/6.94COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 5465kW/6.94COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.07, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 5465kW/6.94COP/Vanes CAPFT, !- Name 1.092441E-01, !- Coefficient1 Constant -1.225892E-01, !- Coefficient2 x -2.802873E-03, !- Coefficient3 x**2 1.324138E-01, !- Coefficient4 y -4.714937E-03, !- Coefficient5 y**2 9.205744E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 5465kW/6.94COP/Vanes EIRFT, !- Name 6.396022E-01, !- Coefficient1 Constant -5.954060E-02, !- Coefficient2 x 5.884523E-04, !- Coefficient3 x**2 3.170651E-02, !- Coefficient4 y -5.088216E-04, !- Coefficient5 y**2 1.460759E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 5465kW/6.94COP/Vanes EIRFPLR, !- Name 2.795792E-01, !- Coefficient1 Constant 7.872758E-02, !- Coefficient2 x 6.424321E-01, !- Coefficient3 x**2 0.14, !- Minimum Value of x 1.07; !- Maximum Value of x ! ElectricEIRChiller York YK 5549kW/6.50COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 5549 kW (1578 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller York YK 5549kW/6.50COP/Vanes, !- Name 5549300, !- Reference Capacity {W} 6.50, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.18296, !- Reference Chilled Water Flow Rate {m3/s} 0.27444, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YK 5549kW/6.50COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YK 5549kW/6.50COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YK 5549kW/6.50COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 5549kW/6.50COP/Vanes CAPFT, !- Name -1.402079E-01, !- Coefficient1 Constant 1.836029E-02, !- Coefficient2 x -2.390588E-03, !- Coefficient3 x**2 1.207956E-01, !- Coefficient4 y -3.563147E-03, !- Coefficient5 y**2 2.024532E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 26.11; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YK 5549kW/6.50COP/Vanes EIRFT, !- Name 4.989980E-01, !- Coefficient1 Constant -8.246157E-02, !- Coefficient2 x 6.047523E-03, !- Coefficient3 x**2 5.168793E-02, !- Coefficient4 y -8.552445E-04, !- Coefficient5 y**2 6.275326E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 26.11; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YK 5549kW/6.50COP/Vanes EIRFPLR, !- Name 2.336623E-01, !- Coefficient1 Constant 1.901320E-01, !- Coefficient2 x 5.749473E-01, !- Coefficient3 x**2 0.14, !- Minimum Value of x 1.05; !- Maximum Value of x ! ElectricEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes ! Manufacturer = Carrier, Model Line = 19FA ! Reference Capacity = 5651 kW (1607 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes, !- Name 5651300, !- Reference Capacity {W} 5.50, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.18927, !- Reference Chilled Water Flow Rate {m3/s} 0.18927, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes CAPFT, !- Name 1.299676E+00, !- Coefficient1 Constant 1.790645E-02, !- Coefficient2 x -2.522300E-03, !- Coefficient3 x**2 2.536423E-03, !- Coefficient4 y -1.128041E-03, !- Coefficient5 y**2 3.003265E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes EIRFT, !- Name 7.853207E-01, !- Coefficient1 Constant -1.652255E-02, !- Coefficient2 x -3.294526E-04, !- Coefficient3 x**2 4.569179E-03, !- Coefficient4 y 1.964013E-04, !- Coefficient5 y**2 1.761497E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes EIRFPLR, !- Name 1.629327E-01, !- Coefficient1 Constant 5.709336E-01, !- Coefficient2 x 2.659304E-01, !- Coefficient3 x**2 0.19, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller DOE-2 Centrifugal/5.50COP ! A generic centrifugal chiller from DOE-2.1E ! Chiller:Electric:EIR, DOE-2 Centrifugal/5.50COP, !- Name Autosize, !- Reference Capacity {W} 5.5, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.4, !- Reference Entering Condenser Fluid Temperature {C} Autosize, !- Reference Chilled Water Flow Rate {m3/s} Autosize, !- Reference Condenser Fluid Flow Rate {m3/s} DOE-2 Centrifugal/5.50COP CAPFT, !- Cooling Capacity Function of Temperature Curve Name DOE-2 Centrifugal/5.50COP EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name DOE-2 Centrifugal/5.50COP EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.1, !- Minimum Part Load Ratio 1.0, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.2, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow; !- Chiller Flow Mode ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve for open or hermetic water-cooled centrifugal chillers ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature ! Same as DOE-2.1E HERM-CENT-CAP-FT (CCAPT3) and OPEN-CENT-CAP-FT (CCAPT1) Curve:Biquadratic, DOE-2 Centrifugal/5.50COP CAPFT, !- Name 0.257896E+00, !- Coefficient1 Constant 0.389016E-01, !- Coefficient2 x -0.217080E-03, !- Coefficient3 x**2 0.468684E-01, !- Coefficient4 y -0.942840E-03, !- Coefficient5 y**2 -0.343440E-03, !- Coefficient6 x*y 5.0, !- Minimum Value of x 10.0, !- Maximum Value of x 24.0, !- Minimum Value of y 35.0; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve for open or hermetic water-cooled centrifugal chillers ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature ! Same as DOE-2.1E HERM-CENT-EIR-FT (EIRT3) and OPEN-CENT-EIR-FT (EIRT1) Curve:Biquadratic, DOE-2 Centrifugal/5.50COP EIRFT, !- Name 0.933884E+00, !- Coefficient1 Constant -0.582120E-01, !- Coefficient2 x 0.450036E-02, !- Coefficient3 x**2 0.243000E-02, !- Coefficient4 y 0.486000E-03, !- Coefficient5 y**2 -0.121500E-02, !- Coefficient6 x*y 5.0, !- Minimum Value of x 10.0, !- Maximum Value of x 24.0, !- Minimum Value of y 35.0; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve for open or hermetic water-cooled centrifugal chillers ! x = Part Load Ratio (load/capacity) ! Same as DOE-2.1E HERM-CENT-EIR-FPLR (EIRPLR3) and OPEN-CENT-EIR-FPLR (EIRPLR1) Curve:Quadratic, DOE-2 Centrifugal/5.50COP EIRFPLR, !- Name 0.222903, !- Coefficient1 Constant 0.313387, !- Coefficient2 x 0.463710, !- Coefficient3 x**2 0.0, !- Minimum Value of x 1.0; !- Maximum Value of x ! ElectricEIRChiller Multistack MS 172kW/3.67COP/None ! Manufacturer = Multistack, Model Line = MS ! Reference Capacity = 172 kW (49 tons) ! Compressor Type = Reciprocating, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 208V-3PH-60HZ ! Unloading Mechanism = None ! Chiller:Electric:EIR, ElectricEIRChiller Multistack MS 172kW/3.67COP/None, !- Name 172300, !- Reference Capacity {W} 3.67, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 18.33, !- Reference Entering Condenser Fluid Temperature {C} 0.00738, !- Reference Chilled Water Flow Rate {m3/s} 0.00959, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Multistack MS 172kW/3.67COP/None CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Multistack MS 172kW/3.67COP/None EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Multistack MS 172kW/3.67COP/None EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.40, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.40, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Multistack MS 172kW/3.67COP/None CAPFT, !- Name 9.839419E-01, !- Coefficient1 Constant 1.094957E-01, !- Coefficient2 x -4.547595E-03, !- Coefficient3 x**2 -2.311886E-02, !- Coefficient4 y 2.595943E-04, !- Coefficient5 y**2 -5.093307E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.33, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Multistack MS 172kW/3.67COP/None EIRFT, !- Name 9.396181E-01, !- Coefficient1 Constant -5.754225E-02, !- Coefficient2 x 2.561677E-03, !- Coefficient3 x**2 1.081450E-02, !- Coefficient4 y 1.839935E-04, !- Coefficient5 y**2 5.269319E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.33, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Multistack MS 172kW/3.67COP/None EIRFPLR, !- Name 4.747786E-03, !- Coefficient1 Constant 1.072374E+00, !- Coefficient2 x -7.758317E-02, !- Coefficient3 x**2 0.40, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller DOE-2 Reciprocating/3.67COP ! A generic reciprocating chiller from DOE-2.1E ! Chiller:Electric:EIR, DOE-2 Reciprocating/3.67COP, !- Name Autosize, !- Reference Capacity {W} 3.67, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.4, !- Reference Entering Condenser Fluid Temperature {C} Autosize, !- Reference Chilled Water Flow Rate {m3/s} Autosize, !- Reference Condenser Fluid Flow Rate {m3/s} DOE-2 Reciprocating/3.67COP CAPFT, !- Cooling Capacity Function of Temperature Curve Name DOE-2 Reciprocating/3.67COP EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name DOE-2 Reciprocating/3.67COP EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.1, !- Minimum Part Load Ratio 1.0, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.2, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow; !- Chiller Flow Mode ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve for open or hermetic water-cooled reciprocating chillers ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature ! Same as DOE-2.1E HERM-REC-CAP-FT (CCAPT4) and OPEN-REC-CAP-FT (CCAPT2) Curve:Biquadratic, DOE-2 Reciprocating/3.67COP CAPFT, !- Name 0.507883E+00, !- Coefficient1 Constant 0.145228E+00, !- Coefficient2 x -0.625644E-02, !- Coefficient3 x**2 -0.111780E-02, !- Coefficient4 y -0.129600E-03, !- Coefficient5 y**2 -0.281880E-03, !- Coefficient6 x*y 5.0, !- Minimum Value of x 10.0, !- Maximum Value of x 24.0, !- Minimum Value of y 35.0; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve for open or hermetic water-cooled reciprocating chillers ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature ! Same as DOE-2.1E HERM-REC-EIR-FT (EIRT4) and OPEN-REC-EIR-FT (EIRT2) Curve:Biquadratic, DOE-2 Reciprocating/3.67COP EIRFT, !- Name 0.103076E+01, !- Coefficient1 Constant -0.103536E+00, !- Coefficient2 x 0.710208E-02, !- Coefficient3 x**2 0.931860E-02, !- Coefficient4 y 0.317520E-03, !- Coefficient5 y**2 -0.104328E-02, !- Coefficient6 x*y 5.0, !- Minimum Value of x 10.0, !- Maximum Value of x 24.0, !- Minimum Value of y 35.0; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve for open or hermetic water-cooled reciprocating chillers ! x = Part Load Ratio (load/capacity) ! Same as DOE-2.1E HERM-REC-EIR-FPLR (EIRPLR4) and OPEN-REC-EIR-FPLR (EIRPLR2) Curve:Quadratic, DOE-2 Reciprocating/3.67COP EIRFPLR, !- Name 0.088065, !- Coefficient1 Constant 1.137742, !- Coefficient2 x -0.225806, !- Coefficient3 x**2 0.0, !- Minimum Value of x 1.0; !- Maximum Value of x ! ElectricEIRChiller Trane RTWA 383kW/4.17COP/Valve ! Manufacturer = Trane, Model Line = RTWA ! Reference Capacity = 383 kW (109 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = N/A ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Trane RTWA 383kW/4.17COP/Valve, !- Name 383300, !- Reference Capacity {W} 4.17, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.0165, !- Reference Chilled Water Flow Rate {m3/s} 0.02063, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane RTWA 383kW/4.17COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane RTWA 383kW/4.17COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane RTWA 383kW/4.17COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.25, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.25, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTWA 383kW/4.17COP/Valve CAPFT, !- Name 9.830684E-01, !- Coefficient1 Constant 3.676199E-02, !- Coefficient2 x 5.307995E-05, !- Coefficient3 x**2 -4.828624E-03, !- Coefficient4 y -4.755963E-05, !- Coefficient5 y**2 -2.377982E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.89, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTWA 383kW/4.17COP/Valve EIRFT, !- Name 6.228513E-01, !- Coefficient1 Constant -8.700783E-03, !- Coefficient2 x 9.719796E-04, !- Coefficient3 x**2 5.184584E-03, !- Coefficient4 y 4.951699E-04, !- Coefficient5 y**2 -9.632370E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.89, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane RTWA 383kW/4.17COP/Valve EIRFPLR, !- Name 3.295553E-02, !- Coefficient1 Constant 9.114398E-01, !- Coefficient2 x 5.565265E-02, !- Coefficient3 x**2 0.25, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Trane RTHB 531kW/4.83COP/Valve ! Manufacturer = Trane, Model Line = RTHB ! Reference Capacity = 531 kW (151 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Trane RTHB 531kW/4.83COP/Valve, !- Name 531000, !- Reference Capacity {W} 4.83, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.0135, !- Reference Chilled Water Flow Rate {m3/s} 0.01577, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane RTHB 531kW/4.83COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane RTHB 531kW/4.83COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane RTHB 531kW/4.83COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHB 531kW/4.83COP/Valve CAPFT, !- Name 9.434012E-01, !- Coefficient1 Constant 1.630729E-02, !- Coefficient2 x 8.621098E-04, !- Coefficient3 x**2 3.242384E-03, !- Coefficient4 y -3.003973E-04, !- Coefficient5 y**2 1.931126E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHB 531kW/4.83COP/Valve EIRFT, !- Name 4.524778E-01, !- Coefficient1 Constant 1.045156E-04, !- Coefficient2 x 6.932509E-05, !- Coefficient3 x**2 2.044980E-02, !- Coefficient4 y 3.672953E-04, !- Coefficient5 y**2 -1.099051E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane RTHB 531kW/4.83COP/Valve EIRFPLR, !- Name 1.980020E-01, !- Coefficient1 Constant 2.733157E-01, !- Coefficient2 x 5.277318E-01, !- Coefficient3 x**2 0.30, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Trane RTHB 538kW/5.12COP/Valve ! Manufacturer = Trane, Model Line = RTHB ! Reference Capacity = 538 kW (153 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Trane RTHB 538kW/5.12COP/Valve, !- Name 538000, !- Reference Capacity {W} 5.12, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.01375, !- Reference Chilled Water Flow Rate {m3/s} 0.01956, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane RTHB 538kW/5.12COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane RTHB 538kW/5.12COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane RTHB 538kW/5.12COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHB 538kW/5.12COP/Valve CAPFT, !- Name 9.344780E-01, !- Coefficient1 Constant 2.760000E-02, !- Coefficient2 x 3.781512E-04, !- Coefficient3 x**2 -9.176470E-04, !- Coefficient4 y -1.270588E-04, !- Coefficient5 y**2 -4.235294E-05, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHB 538kW/5.12COP/Valve EIRFT, !- Name 5.455087E-01, !- Coefficient1 Constant -9.301201E-03, !- Coefficient2 x 5.012361E-04, !- Coefficient3 x**2 1.432870E-02, !- Coefficient4 y 4.719381E-04, !- Coefficient5 y**2 -8.937669E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane RTHB 538kW/5.12COP/Valve EIRFPLR, !- Name 1.816950E-01, !- Coefficient1 Constant 3.731838E-01, !- Coefficient2 x 4.448009E-01, !- Coefficient3 x**2 0.30, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Trane RTHB 542kW/5.26COP/Valve ! Manufacturer = Trane, Model Line = RTHB ! Reference Capacity = 542 kW (154 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Trane RTHB 542kW/5.26COP/Valve, !- Name 541500, !- Reference Capacity {W} 5.26, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 21.11, !- Reference Entering Condenser Fluid Temperature {C} 0.01363, !- Reference Chilled Water Flow Rate {m3/s} 0.01577, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane RTHB 542kW/5.26COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane RTHB 542kW/5.26COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane RTHB 542kW/5.26COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHB 542kW/5.26COP/Valve CAPFT, !- Name 9.226438E-01, !- Coefficient1 Constant 2.878831E-02, !- Coefficient2 x 3.756957E-04, !- Coefficient3 x**2 -1.963636E-03, !- Coefficient4 y -8.415584E-05, !- Coefficient5 y**2 -1.262338E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHB 542kW/5.26COP/Valve EIRFT, !- Name 4.953775E-01, !- Coefficient1 Constant -1.359340E-02, !- Coefficient2 x 5.784637E-04, !- Coefficient3 x**2 2.778142E-02, !- Coefficient4 y 1.747259E-04, !- Coefficient5 y**2 -8.590768E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane RTHB 542kW/5.26COP/Valve EIRFPLR, !- Name 3.057645E-01, !- Coefficient1 Constant -1.548084E-01, !- Coefficient2 x 8.484536E-01, !- Coefficient3 x**2 0.30, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller York YS 672kW/7.90COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 672 kW (191 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller York YS 672kW/7.90COP/Valve, !- Name 671600, !- Reference Capacity {W} 7.90, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 15.56, !- Reference Entering Condenser Fluid Temperature {C} 0.01514, !- Reference Chilled Water Flow Rate {m3/s} 0.0241, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YS 672kW/7.90COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YS 672kW/7.90COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YS 672kW/7.90COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 672kW/7.90COP/Valve CAPFT, !- Name 9.274375E-01, !- Coefficient1 Constant 2.846559E-02, !- Coefficient2 x 4.024428E-04, !- Coefficient3 x**2 -5.932730E-03, !- Coefficient4 y -1.067418E-05, !- Coefficient5 y**2 -2.199015E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 672kW/7.90COP/Valve EIRFT, !- Name 4.069331E-01, !- Coefficient1 Constant -6.420922E-03, !- Coefficient2 x 2.689257E-04, !- Coefficient3 x**2 4.500373E-02, !- Coefficient4 y 1.583981E-04, !- Coefficient5 y**2 -1.284532E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YS 672kW/7.90COP/Valve EIRFPLR, !- Name 1.936152E-01, !- Coefficient1 Constant 3.375574E-01, !- Coefficient2 x 4.704892E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Carrier 23XL 686kW/5.91COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 686 kW (195 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 23XL 686kW/5.91COP/Valve, !- Name 685700, !- Reference Capacity {W} 5.91, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 23.74, !- Reference Entering Condenser Fluid Temperature {C} 0.0571, !- Reference Chilled Water Flow Rate {m3/s} 0.03255, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 23XL 686kW/5.91COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 686kW/5.91COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 686kW/5.91COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 686kW/5.91COP/Valve CAPFT, !- Name 2.903523E-01, !- Coefficient1 Constant -2.676742E-02, !- Coefficient2 x -4.771695E-03, !- Coefficient3 x**2 8.162394E-02, !- Coefficient4 y -3.028217E-03, !- Coefficient5 y**2 5.712524E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 686kW/5.91COP/Valve EIRFT, !- Name 5.014060E-01, !- Coefficient1 Constant 1.561000E-03, !- Coefficient2 x -1.347980E-04, !- Coefficient3 x**2 1.525028E-02, !- Coefficient4 y 5.701374E-04, !- Coefficient5 y**2 -1.221374E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 23XL 686kW/5.91COP/Valve EIRFPLR, !- Name 2.113934E-01, !- Coefficient1 Constant 4.190226E-01, !- Coefficient2 x 3.686143E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Trane RTHC 707kW/7.77COP/Valve ! Manufacturer = Trane, Model Line = RTHC ! Reference Capacity = 707 kW (201 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Trane RTHC 707kW/7.77COP/Valve, !- Name 706800, !- Reference Capacity {W} 7.77, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 15.56, !- Reference Entering Condenser Fluid Temperature {C} 0.04921, !- Reference Chilled Water Flow Rate {m3/s} 0.03268, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane RTHC 707kW/7.77COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane RTHC 707kW/7.77COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane RTHC 707kW/7.77COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.28, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.28, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHC 707kW/7.77COP/Valve CAPFT, !- Name 9.362925E-01, !- Coefficient1 Constant 2.940722E-02, !- Coefficient2 x 5.726999E-04, !- Coefficient3 x**2 -5.696483E-03, !- Coefficient4 y -5.569609E-05, !- Coefficient5 y**2 -1.708132E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 11.11, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHC 707kW/7.77COP/Valve EIRFT, !- Name 6.497944E-01, !- Coefficient1 Constant 6.883157E-03, !- Coefficient2 x -5.277681E-04, !- Coefficient3 x**2 1.725788E-02, !- Coefficient4 y 6.779317E-04, !- Coefficient5 y**2 -1.244055E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 11.11, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane RTHC 707kW/7.77COP/Valve EIRFPLR, !- Name 1.997099E-01, !- Coefficient1 Constant 6.754676E-01, !- Coefficient2 x 1.243767E-01, !- Coefficient3 x**2 0.28, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller York YS 756kW/7.41COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 756 kW (215 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller York YS 756kW/7.41COP/Valve, !- Name 756000, !- Reference Capacity {W} 7.41, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 16.06, !- Reference Entering Condenser Fluid Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YS 756kW/7.41COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YS 756kW/7.41COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YS 756kW/7.41COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.11, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.11, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 756kW/7.41COP/Valve CAPFT, !- Name 9.432455E-01, !- Coefficient1 Constant 2.794778E-02, !- Coefficient2 x 2.937753E-04, !- Coefficient3 x**2 -5.818549E-03, !- Coefficient4 y -3.764392E-05, !- Coefficient5 y**2 -5.777607E-05, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 16.06, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 756kW/7.41COP/Valve EIRFT, !- Name 6.917947E-01, !- Coefficient1 Constant -1.929936E-02, !- Coefficient2 x 1.450011E-03, !- Coefficient3 x**2 1.795987E-02, !- Coefficient4 y 9.301685E-04, !- Coefficient5 y**2 -1.755165E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 16.06, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YS 756kW/7.41COP/Valve EIRFPLR, !- Name 2.929778E-01, !- Coefficient1 Constant 1.673799E-02, !- Coefficient2 x 6.881229E-01, !- Coefficient3 x**2 0.11, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller York YS 781kW/5.42COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 781 kW (222 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller York YS 781kW/5.42COP/Valve, !- Name 780700, !- Reference Capacity {W} 5.42, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.01893, !- Reference Chilled Water Flow Rate {m3/s} 0.03785, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YS 781kW/5.42COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YS 781kW/5.42COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YS 781kW/5.42COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 781kW/5.42COP/Valve CAPFT, !- Name 1.002148E+00, !- Coefficient1 Constant 3.300191E-02, !- Coefficient2 x 3.741670E-04, !- Coefficient3 x**2 -5.925358E-03, !- Coefficient4 y -2.599267E-05, !- Coefficient5 y**2 -2.172126E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 781kW/5.42COP/Valve EIRFT, !- Name 4.475957E-01, !- Coefficient1 Constant -1.054652E-02, !- Coefficient2 x 7.126870E-04, !- Coefficient3 x**2 1.158632E-02, !- Coefficient4 y 5.151510E-04, !- Coefficient5 y**2 -9.831355E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YS 781kW/5.42COP/Valve EIRFPLR, !- Name 2.519108E-01, !- Coefficient1 Constant 2.756914E-01, !- Coefficient2 x 4.725826E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Carrier 23XL 830kW/6.97COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 830 kW (236 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 23XL 830kW/6.97COP/Valve, !- Name 829900, !- Reference Capacity {W} 6.97, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.04744, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 23XL 830kW/6.97COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 830kW/6.97COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 830kW/6.97COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 830kW/6.97COP/Valve CAPFT, !- Name 8.198506E-01, !- Coefficient1 Constant 4.299516E-03, !- Coefficient2 x -2.451574E-04, !- Coefficient3 x**2 1.431034E-02, !- Coefficient4 y -3.586302E-04, !- Coefficient5 y**2 2.510412E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 14.17, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 830kW/6.97COP/Valve EIRFT, !- Name 4.610959E-01, !- Coefficient1 Constant -1.560459E-02, !- Coefficient2 x -2.737454E-04, !- Coefficient3 x**2 2.650593E-02, !- Coefficient4 y -7.789498E-05, !- Coefficient5 y**2 1.855843E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 14.17, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 23XL 830kW/6.97COP/Valve EIRFPLR, !- Name 2.307464E-01, !- Coefficient1 Constant 7.784162E-01, !- Coefficient2 x -7.516503E-03, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Carrier 23XL 862kW/6.11COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 862 kW (245 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 23XL 862kW/6.11COP/Valve, !- Name 861500, !- Reference Capacity {W} 6.11, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.04296, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 23XL 862kW/6.11COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 862kW/6.11COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 862kW/6.11COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 862kW/6.11COP/Valve CAPFT, !- Name -3.646458E-02, !- Coefficient1 Constant -6.061334E-02, !- Coefficient2 x -3.708583E-03, !- Coefficient3 x**2 1.197997E-01, !- Coefficient4 y -3.723397E-03, !- Coefficient5 y**2 5.368766E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 862kW/6.11COP/Valve EIRFT, !- Name 5.420642E-01, !- Coefficient1 Constant -2.110032E-02, !- Coefficient2 x 1.513908E-03, !- Coefficient3 x**2 2.067897E-02, !- Coefficient4 y 5.287518E-04, !- Coefficient5 y**2 -1.630330E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 23XL 862kW/6.11COP/Valve EIRFPLR, !- Name 2.292819E-01, !- Coefficient1 Constant 3.662723E-01, !- Coefficient2 x 4.032019E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 23XL 862kW/6.84COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 862 kW (245 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 23XL 862kW/6.84COP/Valve, !- Name 861500, !- Reference Capacity {W} 6.84, !- Reference COP {W/W} 9.69, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.04296, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 23XL 862kW/6.84COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 862kW/6.84COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 862kW/6.84COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 862kW/6.84COP/Valve CAPFT, !- Name -4.535842E-02, !- Coefficient1 Constant -6.253871E-02, !- Coefficient2 x -3.623064E-03, !- Coefficient3 x**2 1.218299E-01, !- Coefficient4 y -3.793440E-03, !- Coefficient5 y**2 5.404739E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 862kW/6.84COP/Valve EIRFT, !- Name 5.930611E-01, !- Coefficient1 Constant -2.082914E-02, !- Coefficient2 x 1.600282E-03, !- Coefficient3 x**2 2.352564E-02, !- Coefficient4 y 5.992247E-04, !- Coefficient5 y**2 -1.907335E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 23XL 862kW/6.84COP/Valve EIRFPLR, !- Name 1.145826E-01, !- Coefficient1 Constant 7.340475E-01, !- Coefficient2 x 1.507744E-01, !- Coefficient3 x**2 0.30, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Carrier 23XL 865kW/6.05COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 865 kW (246 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 23XL 865kW/6.05COP/Valve, !- Name 865100, !- Reference Capacity {W} 6.05, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.03716, !- Reference Chilled Water Flow Rate {m3/s} 0.04366, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 23XL 865kW/6.05COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 865kW/6.05COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 865kW/6.05COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 865kW/6.05COP/Valve CAPFT, !- Name 5.079758E-01, !- Coefficient1 Constant -2.344768E-02, !- Coefficient2 x -3.296630E-03, !- Coefficient3 x**2 3.508384E-02, !- Coefficient4 y -8.359630E-04, !- Coefficient5 y**2 2.585294E-03, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 865kW/6.05COP/Valve EIRFT, !- Name 5.437328E-01, !- Coefficient1 Constant 7.625344E-03, !- Coefficient2 x -9.201579E-05, !- Coefficient3 x**2 1.339616E-03, !- Coefficient4 y 8.286757E-04, !- Coefficient5 y**2 -1.543530E-03, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 23XL 865kW/6.05COP/Valve EIRFPLR, !- Name 2.545235E-01, !- Coefficient1 Constant 3.104981E-01, !- Coefficient2 x 4.347781E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YS 879kW/5.82COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 879 kW (250 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller York YS 879kW/5.82COP/Valve, !- Name 879100, !- Reference Capacity {W} 5.82, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 26.11, !- Reference Entering Condenser Fluid Temperature {C} 0.03785, !- Reference Chilled Water Flow Rate {m3/s} 0.04732, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YS 879kW/5.82COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YS 879kW/5.82COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YS 879kW/5.82COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 879kW/5.82COP/Valve CAPFT, !- Name 1.031429E+00, !- Coefficient1 Constant 3.364723E-02, !- Coefficient2 x -2.735093E-04, !- Coefficient3 x**2 -3.789167E-03, !- Coefficient4 y -1.553912E-04, !- Coefficient5 y**2 2.782117E-04, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 879kW/5.82COP/Valve EIRFT, !- Name 5.595308E-01, !- Coefficient1 Constant -1.087985E-02, !- Coefficient2 x 8.721022E-04, !- Coefficient3 x**2 1.010347E-02, !- Coefficient4 y 5.087454E-04, !- Coefficient5 y**2 -1.211319E-03, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 12.78, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YS 879kW/5.82COP/Valve EIRFPLR, !- Name 3.029493E-01, !- Coefficient1 Constant 3.223124E-01, !- Coefficient2 x 3.751948E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller Trane RTHC 1009kW/5.37COP/Valve ! Manufacturer = Trane, Model Line = RTHC ! Reference Capacity = 1009 kW (287 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Trane RTHC 1009kW/5.37COP/Valve, !- Name 1009200, !- Reference Capacity {W} 5.37, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 24.86, !- Reference Entering Condenser Fluid Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.04618, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane RTHC 1009kW/5.37COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane RTHC 1009kW/5.37COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane RTHC 1009kW/5.37COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHC 1009kW/5.37COP/Valve CAPFT, !- Name 1.134633E+00, !- Coefficient1 Constant 3.267210E-02, !- Coefficient2 x 5.266344E-04, !- Coefficient3 x**2 -1.076173E-02, !- Coefficient4 y -4.853769E-05, !- Coefficient5 y**2 -2.569325E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 19.97, !- Minimum Value of y 24.86; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHC 1009kW/5.37COP/Valve EIRFT, !- Name 4.383883E-01, !- Coefficient1 Constant 7.754235E-03, !- Coefficient2 x 6.353809E-04, !- Coefficient3 x**2 -2.951880E-03, !- Coefficient4 y 1.270756E-03, !- Coefficient5 y**2 -1.541831E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 19.97, !- Minimum Value of y 24.86; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane RTHC 1009kW/5.37COP/Valve EIRFPLR, !- Name 1.316727E-01, !- Coefficient1 Constant 1.013111E+00, !- Coefficient2 x -1.413213E-01, !- Coefficient3 x**2 0.30, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Trane RTHB 1051kW/5.05COP/Valve ! Manufacturer = Trane, Model Line = RTHB ! Reference Capacity = 1051 kW (299 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = N/A ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Trane RTHB 1051kW/5.05COP/Valve, !- Name 1051400, !- Reference Capacity {W} 5.05, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.04527, !- Reference Chilled Water Flow Rate {m3/s} 0.05659, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane RTHB 1051kW/5.05COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane RTHB 1051kW/5.05COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane RTHB 1051kW/5.05COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHB 1051kW/5.05COP/Valve CAPFT, !- Name 9.482157E-01, !- Coefficient1 Constant 3.306737E-02, !- Coefficient2 x -6.450072E-05, !- Coefficient3 x**2 -3.756522E-03, !- Coefficient4 y -6.501672E-05, !- Coefficient5 y**2 2.517986E-15, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.89, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHB 1051kW/5.05COP/Valve EIRFT, !- Name 4.904181E-01, !- Coefficient1 Constant -5.530317E-03, !- Coefficient2 x 1.209907E-03, !- Coefficient3 x**2 9.122333E-03, !- Coefficient4 y 5.923591E-04, !- Coefficient5 y**2 -1.469958E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.89, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane RTHB 1051kW/5.05COP/Valve EIRFPLR, !- Name 2.590465E-01, !- Coefficient1 Constant 2.148987E-01, !- Coefficient2 x 5.265039E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Carrier 23XL 1062kW/5.50COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 1062 kW (302 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = N/A ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 23XL 1062kW/5.50COP/Valve, !- Name 1062000, !- Reference Capacity {W} 5.50, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.04573, !- Reference Chilled Water Flow Rate {m3/s} 0.05716, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 23XL 1062kW/5.50COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 1062kW/5.50COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 1062kW/5.50COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 1062kW/5.50COP/Valve CAPFT, !- Name 1.025695E+00, !- Coefficient1 Constant 2.327484E-02, !- Coefficient2 x -4.693708E-03, !- Coefficient3 x**2 -7.092715E-03, !- Coefficient4 y -3.754967E-04, !- Coefficient5 y**2 2.843046E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 10.00, !- Maximum Value of x 21.11, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 1062kW/5.50COP/Valve EIRFT, !- Name 2.634070E-01, !- Coefficient1 Constant -7.025220E-03, !- Coefficient2 x -4.942613E-04, !- Coefficient3 x**2 2.516931E-02, !- Coefficient4 y 1.712769E-04, !- Coefficient5 y**2 -4.309735E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 10.00, !- Maximum Value of x 21.11, !- Minimum Value of y 29.44; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 23XL 1062kW/5.50COP/Valve EIRFPLR, !- Name 2.576261E-01, !- Coefficient1 Constant 3.416910E-01, !- Coefficient2 x 4.007672E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Trane RTHC 1066kW/5.73COP/Valve ! Manufacturer = Trane, Model Line = RTHC ! Reference Capacity = 1066 kW (303 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Trane RTHC 1066kW/5.73COP/Valve, !- Name 1065500, !- Reference Capacity {W} 5.73, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 25.28, !- Reference Entering Condenser Fluid Temperature {C} 0.05142, !- Reference Chilled Water Flow Rate {m3/s} 0.04416, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane RTHC 1066kW/5.73COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane RTHC 1066kW/5.73COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane RTHC 1066kW/5.73COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHC 1066kW/5.73COP/Valve CAPFT, !- Name 1.062396E+00, !- Coefficient1 Constant 4.575299E-02, !- Coefficient2 x 2.802795E-04, !- Coefficient3 x**2 -8.802343E-03, !- Coefficient4 y -3.127891E-05, !- Coefficient5 y**2 -5.937227E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.07, !- Minimum Value of y 25.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHC 1066kW/5.73COP/Valve EIRFT, !- Name 9.003080E-01, !- Coefficient1 Constant 3.783201E-03, !- Coefficient2 x 9.815780E-04, !- Coefficient3 x**2 -4.051727E-02, !- Coefficient4 y 2.037095E-03, !- Coefficient5 y**2 -1.619326E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.07, !- Minimum Value of y 25.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane RTHC 1066kW/5.73COP/Valve EIRFPLR, !- Name 1.007344E-01, !- Coefficient1 Constant 1.119205E+00, !- Coefficient2 x -2.173230E-01, !- Coefficient3 x**2 0.30, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Trane RTHC 1094kW/6.55COP/Valve ! Manufacturer = Trane, Model Line = RTHC ! Reference Capacity = 1094 kW (311 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Trane RTHC 1094kW/6.55COP/Valve, !- Name 1093600, !- Reference Capacity {W} 6.55, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 23.33, !- Reference Entering Condenser Fluid Temperature {C} 0.04921, !- Reference Chilled Water Flow Rate {m3/s} 0.04524, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane RTHC 1094kW/6.55COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane RTHC 1094kW/6.55COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane RTHC 1094kW/6.55COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.25, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.25, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHC 1094kW/6.55COP/Valve CAPFT, !- Name 9.643756E-01, !- Coefficient1 Constant 3.820069E-02, !- Coefficient2 x 4.611891E-04, !- Coefficient3 x**2 -5.174840E-03, !- Coefficient4 y -5.784404E-05, !- Coefficient5 y**2 -2.944185E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane RTHC 1094kW/6.55COP/Valve EIRFT, !- Name 6.579136E-01, !- Coefficient1 Constant -1.133448E-02, !- Coefficient2 x 6.497057E-04, !- Coefficient3 x**2 7.318160E-03, !- Coefficient4 y 6.167738E-04, !- Coefficient5 y**2 -9.553369E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane RTHC 1094kW/6.55COP/Valve EIRFPLR, !- Name 1.626466E-01, !- Coefficient1 Constant 7.903550E-01, !- Coefficient2 x 4.770888E-02, !- Coefficient3 x**2 0.25, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Carrier 23XL 1108kW/6.92COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 1108 kW (315 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 23XL 1108kW/6.92COP/Valve, !- Name 1107700, !- Reference Capacity {W} 6.92, !- Reference COP {W/W} 8.97, !- Reference Leaving Chilled Water Temperature {C} 23.74, !- Reference Entering Condenser Fluid Temperature {C} 0.0571, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 23XL 1108kW/6.92COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 1108kW/6.92COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 1108kW/6.92COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 1108kW/6.92COP/Valve CAPFT, !- Name 6.631328E-01, !- Coefficient1 Constant -1.027433E-02, !- Coefficient2 x -5.388040E-04, !- Coefficient3 x**2 3.320295E-02, !- Coefficient4 y -1.304714E-03, !- Coefficient5 y**2 2.169498E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 1108kW/6.92COP/Valve EIRFT, !- Name 5.668296E-01, !- Coefficient1 Constant -2.800906E-02, !- Coefficient2 x 9.362408E-04, !- Coefficient3 x**2 2.210818E-02, !- Coefficient4 y 4.660373E-04, !- Coefficient5 y**2 -7.989601E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 23XL 1108kW/6.92COP/Valve EIRFPLR, !- Name 1.370745E-01, !- Coefficient1 Constant 8.374817E-01, !- Coefficient2 x 2.534280E-02, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YS 1171kW/9.15COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 1171 kW (333 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller York YS 1171kW/9.15COP/Valve, !- Name 1171000, !- Reference Capacity {W} 9.15, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 15.56, !- Reference Entering Condenser Fluid Temperature {C} 0.03249, !- Reference Chilled Water Flow Rate {m3/s} 0.05173, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YS 1171kW/9.15COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YS 1171kW/9.15COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YS 1171kW/9.15COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 1171kW/9.15COP/Valve CAPFT, !- Name 9.299045E-01, !- Coefficient1 Constant 2.350383E-02, !- Coefficient2 x -4.649409E-04, !- Coefficient3 x**2 -4.367237E-03, !- Coefficient4 y -2.040112E-04, !- Coefficient5 y**2 6.430038E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 1171kW/9.15COP/Valve EIRFT, !- Name 5.325834E-01, !- Coefficient1 Constant -2.611733E-02, !- Coefficient2 x 1.365012E-03, !- Coefficient3 x**2 4.099324E-02, !- Coefficient4 y 3.401995E-04, !- Coefficient5 y**2 -1.514251E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 15.56, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YS 1171kW/9.15COP/Valve EIRFPLR, !- Name 1.889392E-01, !- Coefficient1 Constant 4.684305E-01, !- Coefficient2 x 3.451545E-01, !- Coefficient3 x**2 0.09, !- Minimum Value of x 1.01; !- Maximum Value of x ! ElectricEIRChiller Carrier 23XL 1196kW/6.39COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 1196 kW (340 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller Carrier 23XL 1196kW/6.39COP/Valve, !- Name 1195600, !- Reference Capacity {W} 6.39, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 23.89, !- Reference Entering Condenser Fluid Temperature {C} 0.03653, !- Reference Chilled Water Flow Rate {m3/s} 0.04271, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Carrier 23XL 1196kW/6.39COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 1196kW/6.39COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Carrier 23XL 1196kW/6.39COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 1196kW/6.39COP/Valve CAPFT, !- Name 5.775948E-01, !- Coefficient1 Constant 2.206074E-02, !- Coefficient2 x -3.342365E-03, !- Coefficient3 x**2 3.970188E-02, !- Coefficient4 y -1.669877E-03, !- Coefficient5 y**2 2.762827E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Carrier 23XL 1196kW/6.39COP/Valve EIRFT, !- Name 5.077824E-01, !- Coefficient1 Constant -1.608447E-02, !- Coefficient2 x 1.742121E-04, !- Coefficient3 x**2 2.093857E-02, !- Coefficient4 y 4.160938E-04, !- Coefficient5 y**2 -7.169668E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 12.78, !- Minimum Value of y 23.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Carrier 23XL 1196kW/6.39COP/Valve EIRFPLR, !- Name 1.061065E-01, !- Coefficient1 Constant 7.305514E-01, !- Coefficient2 x 1.632883E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.03; !- Maximum Value of x ! ElectricEIRChiller York YS 1554kW/9.31COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 1554 kW (442 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller York YS 1554kW/9.31COP/Valve, !- Name 1554300, !- Reference Capacity {W} 9.31, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 15.56, !- Reference Entering Condenser Fluid Temperature {C} 0.0424, !- Reference Chilled Water Flow Rate {m3/s} 0.07949, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YS 1554kW/9.31COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YS 1554kW/9.31COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YS 1554kW/9.31COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 1554kW/9.31COP/Valve CAPFT, !- Name 1.083027E+00, !- Coefficient1 Constant 9.278069E-03, !- Coefficient2 x 1.175024E-03, !- Coefficient3 x**2 -1.395851E-02, !- Coefficient4 y 9.301303E-05, !- Coefficient5 y**2 6.968115E-05, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 1554kW/9.31COP/Valve EIRFT, !- Name 5.099117E-01, !- Coefficient1 Constant 1.379553E-02, !- Coefficient2 x -2.069529E-04, !- Coefficient3 x**2 2.846021E-02, !- Coefficient4 y 7.189977E-04, !- Coefficient5 y**2 -2.027317E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 15.56, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YS 1554kW/9.31COP/Valve EIRFPLR, !- Name 1.720219E-01, !- Coefficient1 Constant 5.084848E-01, !- Coefficient2 x 3.212462E-01, !- Coefficient3 x**2 0.10, !- Minimum Value of x 1.02; !- Maximum Value of x ! ElectricEIRChiller York YS 1758kW/5.84COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:EIR, ElectricEIRChiller York YS 1758kW/5.84COP/Valve, !- Name 1758300, !- Reference Capacity {W} 5.84, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09464, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller York YS 1758kW/5.84COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller York YS 1758kW/5.84COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller York YS 1758kW/5.84COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 1758kW/5.84COP/Valve CAPFT, !- Name 8.130185E-01, !- Coefficient1 Constant -1.425368E-02, !- Coefficient2 x -1.618007E-03, !- Coefficient3 x**2 2.638417E-02, !- Coefficient4 y -9.154379E-04, !- Coefficient5 y**2 1.696015E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller York YS 1758kW/5.84COP/Valve EIRFT, !- Name 6.381264E-01, !- Coefficient1 Constant 6.304193E-03, !- Coefficient2 x 9.233511E-04, !- Coefficient3 x**2 -4.552881E-03, !- Coefficient4 y 8.256904E-04, !- Coefficient5 y**2 -1.561533E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 12.78, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller York YS 1758kW/5.84COP/Valve EIRFPLR, !- Name 3.149879E-01, !- Coefficient1 Constant 3.171267E-01, !- Coefficient2 x 3.709077E-01, !- Coefficient3 x**2 0.20, !- Minimum Value of x 1.04; !- Maximum Value of x ! ElectricEIRChiller Trane CGWD 207kW/3.99COP/None ! Manufacturer = Trane, Model Line = CGWD ! Reference Capacity = 207 kW (59 tons) ! Compressor Type = Scroll, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = N/A ! Unloading Mechanism = None ! Chiller:Electric:EIR, ElectricEIRChiller Trane CGWD 207kW/3.99COP/None, !- Name 207400, !- Reference Capacity {W} 3.99, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Entering Condenser Fluid Temperature {C} 0.00898, !- Reference Chilled Water Flow Rate {m3/s} 0.01122, !- Reference Condenser Fluid Flow Rate {m3/s} ElectricEIRChiller Trane CGWD 207kW/3.99COP/None CAPFT, !- Cooling Capacity Function of Temperature Curve Name ElectricEIRChiller Trane CGWD 207kW/3.99COP/None EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name ElectricEIRChiller Trane CGWD 207kW/3.99COP/None EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.25, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.25, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name WaterCooled, !- Condenser Type , !- Condenser Fan Power Ratio {W/W} 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CGWD 207kW/3.99COP/None CAPFT, !- Name 9.441897E-01, !- Coefficient1 Constant 3.371079E-02, !- Coefficient2 x 9.756685E-05, !- Coefficient3 x**2 -3.220573E-03, !- Coefficient4 y -4.917369E-05, !- Coefficient5 y**2 -1.775717E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 23.89, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Entering Condenser Water Temperature Curve:Biquadratic, ElectricEIRChiller Trane CGWD 207kW/3.99COP/None EIRFT, !- Name 7.273870E-01, !- Coefficient1 Constant -1.189276E-02, !- Coefficient2 x 5.411677E-04, !- Coefficient3 x**2 1.879294E-03, !- Coefficient4 y 4.734664E-04, !- Coefficient5 y**2 -7.114850E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 23.89, !- Minimum Value of y 35.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Part Load Ratio (load/capacity) Curve:Quadratic, ElectricEIRChiller Trane CGWD 207kW/3.99COP/None EIRFPLR, !- Name 4.146742E-02, !- Coefficient1 Constant 6.543795E-01, !- Coefficient2 x 3.044125E-01, !- Coefficient3 x**2 0.25, !- Minimum Value of x 1.01; !- Maximum Value of x ! !=========================== End of Chiller:Electric:EIR dataset ================================= ! !===================== Start of Chiller:Electric:ReformulatedEIR dataset ========================= ! ! Summary Table for Reformulated EIR Chiller reference data sets (Ref. CoolTools project). ! Chillers are listed in order of compressor type and reference capacity (model calibration ! point). Reference capacity and COP do not necessarily indicate rated capacity and COP at ! standard rating conditions (e.g. ARI Standard 550/590). ! ! Performance curves developed from information collected over a 10-year period from 1991 to 2001. ! ! Compressor Reference Reference Unloading ! Chiller Name Type Capacity COP Mechanism ! kW (tons) ! ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes Centrifugal 471 (134) 5.89 Inlet Vanes ! ReformEIRChiller York YT 563kW/10.61COP/Vanes Centrifugal 563 (160) 10.61 Inlet Vanes ! ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes Centrifugal 703 (200) 7.03 Inlet Vanes ! ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes Centrifugal 724 (206) 6.04 Inlet Vanes ! ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD Centrifugal 742 (211) 5.42 VSD ! ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes Centrifugal 816 (232) 6.74 Inlet Vanes ! ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes Centrifugal 819 (233) 8.11 Inlet Vanes ! ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes Centrifugal 823 (234) 6.28 Inlet Vanes ! ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD Centrifugal 869 (247) 5.57 VSD ! ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD Centrifugal 897 (255) 7.23 VSD ! ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes Centrifugal 897 (255) 6.50 Inlet Vanes ! ReformEIRChiller York YT 897kW/7.60COP/VSD Centrifugal 897 (255) 7.60 VSD ! ReformEIRChiller York YT 897kW/6.27COP/VSD Centrifugal 897 (255) 6.27 VSD ! ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD Centrifugal 897 (255) 6.23 VSD ! ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes Centrifugal 932 (265) 5.09 Inlet Vanes ! ReformEIRChiller York YT 960kW/4.64COP/Vanes Centrifugal 960 (273) 4.64 Inlet Vanes ! ReformEIRChiller York YT 1023kW/5.81COP/Vanes Centrifugal 1023 (291) 5.81 Inlet Vanes ! ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes Centrifugal 1030 (293) 8.58 Inlet Vanes ! ReformEIRChiller York YT 1048kW/6.06COP/Vanes Centrifugal 1048 (298) 6.06 Inlet Vanes ! ReformEIRChiller York YT 1055kW/5.96COP/Vanes Centrifugal 1055 (300) 5.96 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes Centrifugal 1076 (306) 5.52 Inlet Vanes ! ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes Centrifugal 1080 (307) 7.39 Inlet Vanes ! ReformEIRChiller York YT 1090kW/7.57COP/VSD Centrifugal 1090 (310) 7.57 VSD ! ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes Centrifugal 1104 (314) 8.00 Inlet Vanes ! ReformEIRChiller York YT 1125kW/7.92COP/VSD Centrifugal 1125 (320) 7.92 VSD ! ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes Centrifugal 1125 (320) 4.89 Inlet Vanes ! ReformEIRChiller York YT 1125kW/7.92COP/VSD Centrifugal 1125 (320) 7.92 VSD ! ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes Centrifugal 1129 (321) 7.19 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD Centrifugal 1143 (325) 6.57 VSD ! ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD Centrifugal 1157 (329) 5.62 VSD ! ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes Centrifugal 1196 (340) 6.50 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes Centrifugal 1213 (345) 7.78 Inlet Vanes ! ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes Centrifugal 1231 (350) 6.18 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD Centrifugal 1234 (351) 5.39 VSD ! ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes Centrifugal 1259 (358) 6.26 Inlet Vanes ! ReformEIRChiller York YK 1259kW/6.45COP/Vanes Centrifugal 1259 (358) 6.45 Inlet Vanes ! ReformEIRChiller York YT 1266kW/4.39COP/Vanes Centrifugal 1266 (360) 4.39 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes Centrifugal 1284 (365) 6.20 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes Centrifugal 1294 (368) 7.61 Inlet Vanes ! ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes Centrifugal 1329 (378) 5.38 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD Centrifugal 1350 (384) 7.90 VSD ! ReformEIRChiller York YT 1368kW/7.35COP/VSD Centrifugal 1368 (389) 7.35 VSD ! ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes Centrifugal 1372 (390) 7.49 Inlet Vanes ! ReformEIRChiller York YT 1396kW/7.35COP/Vanes Centrifugal 1396 (397) 7.35 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD Centrifugal 1403 (399) 7.09 VSD ! ReformEIRChiller York YT 1403kW/6.94COP/VSD Centrifugal 1403 (399) 6.94 VSD ! ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD Centrifugal 1407 (400) 7.14 VSD ! ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes Centrifugal 1407 (400) 6.60 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD Centrifugal 1407 (400) 6.04 VSD ! ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD Centrifugal 1410 (401) 8.54 VSD ! ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD Centrifugal 1442 (410) 6.61 VSD ! ReformEIRChiller York YT 1459kW/6.40COP/VSD Centrifugal 1459 (415) 6.40 VSD ! ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD Centrifugal 1484 (422) 9.96 VSD ! ReformEIRChiller York YT 1495kW/7.51COP/VSD Centrifugal 1495 (425) 7.51 VSD ! ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes Centrifugal 1519 (432) 7.10 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD Centrifugal 1558 (443) 5.81 VSD ! ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD Centrifugal 1586 (451) 5.53 VSD ! ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes Centrifugal 1635 (465) 7.47 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes Centrifugal 1635 (465) 6.36 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD Centrifugal 1656 (471) 8.24 VSD ! ReformEIRChiller York YT 1663kW/9.34COP/Vanes Centrifugal 1663 (473) 9.34 Inlet Vanes ! ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes Centrifugal 1674 (476) 7.89 Inlet Vanes ! ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes Centrifugal 1681 (478) 6.59 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD Centrifugal 1723 (490) 8.32 VSD ! ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes Centrifugal 1727 (491) 9.04 Inlet Vanes ! ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes Centrifugal 1751 (498) 6.73 Inlet Vanes ! ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes Centrifugal 1758 (500) 5.96 Inlet Vanes ! ReformEIRChiller York YT 1758kW/5.76COP/VSD Centrifugal 1758 (500) 5.76 VSD ! ReformEIRChiller York YT 1758kW/6.26COP/Vanes Centrifugal 1758 (500) 6.26 Inlet Vanes ! ReformEIRChiller York YT 1758kW/5.96COP/Vanes Centrifugal 1758 (500) 5.96 Inlet Vanes ! ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes Centrifugal 1758 (500) 5.96 Inlet Vanes ! ReformEIRChiller York YT 1758kW/6.28COP/Vanes Centrifugal 1758 (500) 6.28 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD Centrifugal 1758 (500) 5.86 VSD ! ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD Centrifugal 1758 (500) 6.46 VSD ! ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes Centrifugal 1758 (500) 6.87 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes Centrifugal 1776 (505) 8.00 Inlet Vanes ! ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes Centrifugal 1779 (506) 6.18 Inlet Vanes ! ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes Centrifugal 1779 (506) 6.18 Inlet Vanes ! ReformEIRChiller York YT 1794kW/8.11COP/Vanes Centrifugal 1794 (510) 8.11 Inlet Vanes ! ReformEIRChiller York YT 1794kW/7.90COP/VSD Centrifugal 1794 (510) 7.90 VSD ! ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes Centrifugal 1797 (511) 5.69 Inlet Vanes ! ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD Centrifugal 1801 (512) 6.34 VSD ! ReformEIRChiller York YT 1867kW/10.09COP/Vanes Centrifugal 1867 (531) 10.09 Inlet Vanes ! ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes Centrifugal 1871 (532) 6.49 Inlet Vanes ! ReformEIRChiller York YT 1881kW/6.77COP/VSD Centrifugal 1881 (535) 6.77 VSD ! ReformEIRChiller York YK 1881kW/6.53COP/Vanes Centrifugal 1881 (535) 6.53 Inlet Vanes ! ReformEIRChiller York YK 1881kW/6.53COP/Vanes Centrifugal 1881 (535) 6.53 Inlet Vanes ! ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes Centrifugal 1895 (539) 6.42 Inlet Vanes ! ReformEIRChiller York YT 1934kW/7.55COP/Vanes Centrifugal 1934 (550) 7.55 Inlet Vanes ! ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes Centrifugal 1934 (550) 6.01 Inlet Vanes ! ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes Centrifugal 1973 (561) 6.28 Inlet Vanes ! ReformEIRChiller York YK 1997kW/7.24COP/Vanes Centrifugal 1997 (568) 7.24 Inlet Vanes ! ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes Centrifugal 2043 (581) 8.44 Inlet Vanes ! ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes Centrifugal 2043 (581) 9.08 Inlet Vanes ! ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes Centrifugal 2057 (585) 6.05 Inlet Vanes ! ReformEIRChiller York YT 2110kW/7.15COP/Vanes Centrifugal 2110 (600) 7.15 Inlet Vanes ! ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes Centrifugal 2124 (604) 6.03 Inlet Vanes ! ReformEIRChiller York YK 2159kW/6.85COP/Vanes Centrifugal 2159 (614) 6.85 Inlet Vanes ! ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes Centrifugal 2184 (621) 6.78 Inlet Vanes ! ReformEIRChiller York YK 2201kW/6.69COP/Vanes Centrifugal 2201 (626) 6.69 Inlet Vanes ! ReformEIRChiller York YT 2233kW/9.54COP/VSD Centrifugal 2233 (635) 9.54 VSD ! ReformEIRChiller York YT 2233kW/9.54COP/VSD Centrifugal 2233 (635) 9.54 VSD ! ReformEIRChiller York YK 2237kW/6.41COP/Vanes Centrifugal 2237 (636) 6.41 Inlet Vanes ! ReformEIRChiller York YK 2275kW/6.32COP/Vanes Centrifugal 2275 (647) 6.32 Inlet Vanes ! ReformEIRChiller York YK 2275kW/6.32COP/Vanes Centrifugal 2275 (647) 6.32 Inlet Vanes ! ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes Centrifugal 2300 (654) 8.10 Inlet Vanes ! ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD Centrifugal 2317 (659) 6.33 VSD ! ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes Centrifugal 2391 (680) 6.77 Inlet Vanes ! ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD Centrifugal 2391 (680) 6.44 VSD ! ReformEIRChiller York YK 2412kW/5.58COP/Vanes Centrifugal 2412 (686) 5.58 Inlet Vanes ! ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes Centrifugal 2462 (700) 6.67 Inlet Vanes ! ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP Centrifugal 2490 (708) 6.5 Inlet Vanes 50Hz ! ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD Centrifugal 2567 (730) 11.77 VSD ! ReformEIRChiller York YK 2771kW/6.84COP/VSD Centrifugal 2771 (788) 6.84 VSD ! ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes Centrifugal 2799 (796) 6.40 Inlet Vanes ! ReformEIRChiller York YT 3133kW/9.16COP/Vanes Centrifugal 3133 (891) 9.16 Inlet Vanes ! ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes Centrifugal 3165 (900) 6.48 Inlet Vanes ! ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes Centrifugal 4020 (1143) 7.35 Inlet Vanes ! ReformEIRChiller York YK 4396kW/6.63COP/Vanes Centrifugal 4396 (1250) 6.63 Inlet Vanes ! ReformEIRChiller York YK 4477kW/6.64COP/Vanes Centrifugal 4477 (1273) 6.64 Inlet Vanes ! ReformEIRChiller York YK 4515kW/6.22COP/Vanes Centrifugal 4515 (1284) 6.22 Inlet Vanes ! ReformEIRChiller York YK 4537kW/6.28COP/Vanes Centrifugal 4537 (1290) 6.28 Inlet Vanes ! ReformEIRChiller Trane CVHF 4610kW/6.34COP/Vanes Centrifugal 4610 (1311) 6.34 Inlet Vanes ! ReformEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes Centrifugal 4667 (1327) 6.16 Inlet Vanes ! ReformEIRChiller Trane CVHF 4677kW/6.27COP/Vanes Centrifugal 4677 (1330) 6.27 Inlet Vanes ! ReformEIRChiller York YK 4966kW/6.05COP/Vanes Centrifugal 4966 (1412) 6.05 Inlet Vanes ! ReformEIRChiller York YK 4969kW/7.14COP/Vanes Centrifugal 4969 (1413) 7.14 Inlet Vanes ! ReformEIRChiller York YK 4969kW/7.07COP/Vanes Centrifugal 4969 (1413) 7.07 Inlet Vanes ! ReformEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes Centrifugal 4997 (1421) 6.40 Inlet Vanes ! ReformEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes Centrifugal 5148 (1464) 6.34 Inlet Vanes ! ReformEIRChiller York YK 5170kW/7.15COP/Vanes Centrifugal 5170 (1470) 7.15 Inlet Vanes ! ReformEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes Centrifugal 5208 (1481) 6.88 Inlet Vanes ! ReformEIRChiller York YK 5465kW/6.94COP/Vanes Centrifugal 5465 (1554) 6.94 Inlet Vanes ! ReformEIRChiller York YK 5549kW/6.50COP/Vanes Centrifugal 5549 (1578) 6.50 Inlet Vanes ! ReformEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes Centrifugal 5651 (1607) 5.50 Inlet Vanes ! ReformEIRChiller Multistack MS 172kW/3.67COP/None Reciprocating 172 (49) 3.67 None ! ReformEIRChiller Trane RTWA 383kW/4.17COP/Valve Screw 383 (109) 4.17 Slide Valve ! ReformEIRChiller Trane RTHB 531kW/4.83COP/Valve Screw 531 (151) 4.83 Slide Valve ! ReformEIRChiller Trane RTHB 538kW/5.12COP/Valve Screw 538 (153) 5.12 Slide Valve ! ReformEIRChiller Trane RTHB 542kW/5.26COP/Valve Screw 542 (154) 5.26 Slide Valve ! ReformEIRChiller York YS 672kW/7.90COP/Valve Screw 672 (191) 7.90 Slide Valve ! ReformEIRChiller Carrier 23XL 686kW/5.91COP/Valve Screw 686 (195) 5.91 Slide Valve ! ReformEIRChiller Trane RTHC 707kW/7.77COP/Valve Screw 707 (201) 7.77 Slide Valve ! ReformEIRChiller York YS 756kW/7.41COP/Valve Screw 756 (215) 7.41 Slide Valve ! ReformEIRChiller York YS 781kW/5.42COP/Valve Screw 781 (222) 5.42 Slide Valve ! ReformEIRChiller Carrier 23XL 830kW/6.97COP/Valve Screw 830 (236) 6.97 Slide Valve ! ReformEIRChiller Carrier 23XL 862kW/6.11COP/Valve Screw 862 (245) 6.11 Slide Valve ! ReformEIRChiller Carrier 23XL 862kW/6.84COP/Valve Screw 862 (245) 6.84 Slide Valve ! ReformEIRChiller Carrier 23XL 865kW/6.05COP/Valve Screw 865 (246) 6.05 Slide Valve ! ReformEIRChiller York YS 879kW/5.82COP/Valve Screw 879 (250) 5.82 Slide Valve ! ReformEIRChiller Trane RTHC 1009kW/5.37COP/Valve Screw 1009 (287) 5.37 Slide Valve ! ReformEIRChiller Trane RTHB 1051kW/5.05COP/Valve Screw 1051 (299) 5.05 Slide Valve ! ReformEIRChiller Carrier 23XL 1062kW/5.50COP/Valve Screw 1062 (302) 5.50 Slide Valve ! ReformEIRChiller Trane RTHC 1066kW/5.73COP/Valve Screw 1066 (303) 5.73 Slide Valve ! ReformEIRChiller Trane RTHC 1094kW/6.55COP/Valve Screw 1094 (311) 6.55 Slide Valve ! ReformEIRChiller Carrier 23XL 1108kW/6.92COP/Valve Screw 1108 (315) 6.92 Slide Valve ! ReformEIRChiller York YS 1171kW/9.15COP/Valve Screw 1171 (333) 9.15 Slide Valve ! ReformEIRChiller Carrier 23XL 1196kW/6.39COP/Valve Screw 1196 (340) 6.39 Slide Valve ! ReformEIRChiller York YS 1554kW/9.31COP/Valve Screw 1554 (442) 9.31 Slide Valve ! ReformEIRChiller York YS 1758kW/5.84COP/Valve Screw 1758 (500) 5.84 Slide Valve ! ReformEIRChiller Trane CGWD 207kW/3.99COP/None Scroll 207 (59) 3.99 None ! ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes ! Manufacturer = McQuay, Model Line = WSC ! Reference Capacity = 471 kW (134 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes, !- Name 471200, !- Reference Capacity {W} 5.89, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 33.52, !- Reference Leaving Condenser Water Temperature {C} 0.01035, !- Reference Chilled Water Flow Rate {m3/s} 0.01924, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.08, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes CAPFT, !- Name -4.862465E-01, !- Coefficient1 Constant -7.293218E-02, !- Coefficient2 x -8.514849E-03, !- Coefficient3 x**2 1.463106E-01, !- Coefficient4 y -4.474066E-03, !- Coefficient5 y**2 9.813408E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 18.81, !- Minimum Value of y 35.09; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes EIRFT, !- Name 3.522647E-01, !- Coefficient1 Constant -3.311790E-02, !- Coefficient2 x -1.374491E-04, !- Coefficient3 x**2 3.469525E-02, !- Coefficient4 y -3.624458E-04, !- Coefficient5 y**2 6.749423E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 18.81, !- Minimum Value of y 35.09; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes EIRFPLR, !- Name 8.215998E-01, !- Coefficient1 Constant -2.209969E-02, !- Coefficient2 x -1.725652E-05, !- Coefficient3 x**2 -3.831448E-02, !- Coefficient4 y 1.896948E-01, !- Coefficient5 y**2 2.308518E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.349969E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.52, !- Minimum Value of x 33.32, !- Maximum Value of x 0.10, !- Minimum Value of y 1.08; !- Maximum Value of y ! ReformEIRChiller York YT 563kW/10.61COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 563 kW (160 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 563kW/10.61COP/Vanes, !- Name 562600, !- Reference Capacity {W} 10.61, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 18.89, !- Reference Leaving Condenser Water Temperature {C} 0.01514, !- Reference Chilled Water Flow Rate {m3/s} 0.0241, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 563kW/10.61COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 563kW/10.61COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 563kW/10.61COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 563kW/10.61COP/Vanes CAPFT, !- Name -2.841837E-01, !- Coefficient1 Constant -1.006253E-01, !- Coefficient2 x -3.157589E-03, !- Coefficient3 x**2 1.221758E-01, !- Coefficient4 y -3.003466E-03, !- Coefficient5 y**2 6.704017E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.47, !- Minimum Value of y 33.52; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 563kW/10.61COP/Vanes EIRFT, !- Name -5.308783E-01, !- Coefficient1 Constant -8.364102E-02, !- Coefficient2 x -4.054970E-03, !- Coefficient3 x**2 1.347115E-01, !- Coefficient4 y -1.805617E-03, !- Coefficient5 y**2 3.054789E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.47, !- Minimum Value of y 33.52; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 563kW/10.61COP/Vanes EIRFPLR, !- Name 4.931998E+00, !- Coefficient1 Constant -2.128161E-01, !- Coefficient2 x 3.520769E-04, !- Coefficient3 x**2 -8.586753E+00, !- Coefficient4 y 1.375722E+01, !- Coefficient5 y**2 1.940510E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -8.859038E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.46, !- Minimum Value of x 29.48, !- Maximum Value of x 0.09, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 703 kW (200 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes, !- Name 703300, !- Reference Capacity {W} 7.03, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 29.40, !- Reference Leaving Condenser Water Temperature {C} 0.02019, !- Reference Chilled Water Flow Rate {m3/s} 0.02902, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes CAPFT, !- Name -1.336180E-01, !- Coefficient1 Constant 6.473161E-02, !- Coefficient2 x -1.240446E-02, !- Coefficient3 x**2 9.425649E-02, !- Coefficient4 y -2.958871E-03, !- Coefficient5 y**2 5.765503E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 20.28, !- Minimum Value of y 31.25; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes EIRFT, !- Name 8.177961E-01, !- Coefficient1 Constant -1.756394E-01, !- Coefficient2 x 2.510719E-03, !- Coefficient3 x**2 2.677783E-02, !- Coefficient4 y -4.926551E-04, !- Coefficient5 y**2 4.559008E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 20.28, !- Minimum Value of y 31.25; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes EIRFPLR, !- Name 2.342644E+00, !- Coefficient1 Constant -1.060883E-01, !- Coefficient2 x 2.710155E-04, !- Coefficient3 x**2 -2.289108E+00, !- Coefficient4 y 3.338339E+00, !- Coefficient5 y**2 9.221626E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.217954E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.43, !- Minimum Value of x 30.54, !- Maximum Value of x 0.10, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 724 kW (206 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes, !- Name 724400, !- Reference Capacity {W} 6.04, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 31.44, !- Reference Leaving Condenser Water Temperature {C} 0.01779, !- Reference Chilled Water Flow Rate {m3/s} 0.01956, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes CAPFT, !- Name -1.116010E-01, !- Coefficient1 Constant -1.058351E-01, !- Coefficient2 x -1.829692E-03, !- Coefficient3 x**2 9.677921E-02, !- Coefficient4 y -2.169221E-03, !- Coefficient5 y**2 4.998660E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 22.12, !- Minimum Value of y 35.40; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes EIRFT, !- Name 5.899136E-01, !- Coefficient1 Constant 1.976846E-02, !- Coefficient2 x 8.755088E-04, !- Coefficient3 x**2 -7.564222E-03, !- Coefficient4 y 8.775130E-04, !- Coefficient5 y**2 -2.036856E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 22.12, !- Minimum Value of y 35.40; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes EIRFPLR, !- Name 3.645490E-01, !- Coefficient1 Constant 2.732140E-03, !- Coefficient2 x -5.356774E-05, !- Coefficient3 x**2 1.212025E-01, !- Coefficient4 y 5.491750E-01, !- Coefficient5 y**2 2.083941E-04, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -7.516191E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 15.77, !- Minimum Value of x 32.70, !- Maximum Value of x 0.19, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 742 kW (211 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD, !- Name 742000, !- Reference Capacity {W} 5.42, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 31.86, !- Reference Leaving Condenser Water Temperature {C} 0.01779, !- Reference Chilled Water Flow Rate {m3/s} 0.01956, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD CAPFT, !- Name 7.769438E-01, !- Coefficient1 Constant -2.149731E-02, !- Coefficient2 x -1.080097E-03, !- Coefficient3 x**2 2.754266E-02, !- Coefficient4 y -7.938947E-04, !- Coefficient5 y**2 1.666375E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 22.11, !- Minimum Value of y 34.90; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD EIRFT, !- Name 1.131963E+00, !- Coefficient1 Constant -4.201196E-02, !- Coefficient2 x 7.571267E-04, !- Coefficient3 x**2 -2.042484E-02, !- Coefficient4 y 7.676570E-04, !- Coefficient5 y**2 -2.753302E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 22.11, !- Minimum Value of y 34.90; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD EIRFPLR, !- Name 4.301853E-02, !- Coefficient1 Constant 1.740092E-02, !- Coefficient2 x -2.733344E-05, !- Coefficient3 x**2 -5.445504E-01, !- Coefficient4 y 2.155307E+00, !- Coefficient5 y**2 -1.600200E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -6.716912E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.23, !- Minimum Value of x 32.53, !- Maximum Value of x 0.19, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes ! Manufacturer = McQuay, Model Line = WSC ! Reference Capacity = 816 kW (232 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes, !- Name 815800, !- Reference Capacity {W} 6.74, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 32.05, !- Reference Leaving Condenser Water Temperature {C} 0.01748, !- Reference Chilled Water Flow Rate {m3/s} 0.04164, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes CAPFT, !- Name 9.237537E-01, !- Coefficient1 Constant 1.013316E-02, !- Coefficient2 x -6.564312E-03, !- Coefficient3 x**2 2.744234E-02, !- Coefficient4 y -2.183256E-03, !- Coefficient5 y**2 6.537972E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.41, !- Minimum Value of y 33.45; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes EIRFT, !- Name 7.251890E-01, !- Coefficient1 Constant -1.477434E-02, !- Coefficient2 x -3.174328E-03, !- Coefficient3 x**2 4.035136E-03, !- Coefficient4 y -6.105556E-05, !- Coefficient5 y**2 2.003152E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.41, !- Minimum Value of y 33.45; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes EIRFPLR, !- Name 5.166838E-01, !- Coefficient1 Constant -1.114911E-02, !- Coefficient2 x 7.372985E-05, !- Coefficient3 x**2 -7.182393E-02, !- Coefficient4 y 8.180601E-01, !- Coefficient5 y**2 7.638243E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.216516E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.34, !- Minimum Value of x 31.77, !- Maximum Value of x 0.09, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 819 kW (233 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes, !- Name 819300, !- Reference Capacity {W} 8.11, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 18.59, !- Reference Leaving Condenser Water Temperature {C} 0.02524, !- Reference Chilled Water Flow Rate {m3/s} 0.03785, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes CAPFT, !- Name 5.519141E-01, !- Coefficient1 Constant 1.393287E-02, !- Coefficient2 x -4.818082E-03, !- Coefficient3 x**2 3.705684E-02, !- Coefficient4 y -1.429769E-03, !- Coefficient5 y**2 3.473993E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.51, !- Minimum Value of y 35.07; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes EIRFT, !- Name 4.447588E-01, !- Coefficient1 Constant -3.185710E-02, !- Coefficient2 x -8.260575E-04, !- Coefficient3 x**2 3.712567E-02, !- Coefficient4 y -4.887950E-05, !- Coefficient5 y**2 4.978770E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.51, !- Minimum Value of y 35.07; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes EIRFPLR, !- Name 1.038400E-01, !- Coefficient1 Constant 1.702895E-02, !- Coefficient2 x -1.399515E-05, !- Coefficient3 x**2 -9.140769E-03, !- Coefficient4 y 1.077987E+00, !- Coefficient5 y**2 -1.633517E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.811897E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.33, !- Minimum Value of x 31.92, !- Maximum Value of x 0.09, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 823 kW (234 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes, !- Name 822900, !- Reference Capacity {W} 6.28, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 28.70, !- Reference Leaving Condenser Water Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.04744, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes CAPFT, !- Name 3.746558E-01, !- Coefficient1 Constant 8.556337E-02, !- Coefficient2 x -3.020882E-03, !- Coefficient3 x**2 3.745436E-02, !- Coefficient4 y -9.995050E-04, !- Coefficient5 y**2 -4.477637E-05, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 17.99, !- Minimum Value of y 29.36; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes EIRFT, !- Name 9.280652E-01, !- Coefficient1 Constant 3.277907E-02, !- Coefficient2 x 7.583449E-04, !- Coefficient3 x**2 -2.536152E-02, !- Coefficient4 y 1.204136E-03, !- Coefficient5 y**2 -2.475422E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 17.99, !- Minimum Value of y 29.36; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes EIRFPLR, !- Name 1.057586E-01, !- Coefficient1 Constant 1.472161E-02, !- Coefficient2 x -5.875508E-05, !- Coefficient3 x**2 6.780787E-01, !- Coefficient4 y -6.310911E-02, !- Coefficient5 y**2 -1.207949E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 2.498837E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.39, !- Minimum Value of x 28.59, !- Maximum Value of x 0.10, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 869 kW (247 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = N/A ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD, !- Name 868600, !- Reference Capacity {W} 5.57, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 36.12, !- Reference Leaving Condenser Water Temperature {C} 0.01754, !- Reference Chilled Water Flow Rate {m3/s} 0.02593, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD CAPFT, !- Name 5.989856E-01, !- Coefficient1 Constant 1.069929E-01, !- Coefficient2 x -8.442248E-03, !- Coefficient3 x**2 -1.622083E-03, !- Coefficient4 y -4.384385E-04, !- Coefficient5 y**2 2.372388E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 22.63, !- Minimum Value of y 36.94; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD EIRFT, !- Name 5.173193E-01, !- Coefficient1 Constant 7.303695E-02, !- Coefficient2 x -7.486318E-03, !- Coefficient3 x**2 -2.613352E-03, !- Coefficient4 y 1.000039E-04, !- Coefficient5 y**2 1.264598E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 22.63, !- Minimum Value of y 36.94; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD EIRFPLR, !- Name 1.317677E-01, !- Coefficient1 Constant -7.501960E-03, !- Coefficient2 x 5.073000E-06, !- Coefficient3 x**2 8.550743E-01, !- Coefficient4 y -6.215987E-01, !- Coefficient5 y**2 7.267902E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 6.373549E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.40, !- Minimum Value of x 35.00, !- Maximum Value of x 0.18, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 897 kW (255 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD, !- Name 896700, !- Reference Capacity {W} 7.23, !- Reference COP {W/W} 9.82, !- Reference Leaving Chilled Water Temperature {C} 29.49, !- Reference Leaving Condenser Water Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.0436, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD CAPFT, !- Name 5.211989E-01, !- Coefficient1 Constant 7.968670E-02, !- Coefficient2 x -1.488365E-03, !- Coefficient3 x**2 1.974850E-02, !- Coefficient4 y -4.643458E-04, !- Coefficient5 y**2 -7.786719E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.72, !- Minimum Value of y 30.41; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD EIRFT, !- Name 6.970381E-01, !- Coefficient1 Constant 5.701647E-02, !- Coefficient2 x -2.272629E-04, !- Coefficient3 x**2 8.496805E-03, !- Coefficient4 y 4.752264E-04, !- Coefficient5 y**2 -2.759799E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.72, !- Minimum Value of y 30.41; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD EIRFPLR, !- Name 7.280764E-01, !- Coefficient1 Constant -5.949776E-02, !- Coefficient2 x 3.161338E-05, !- Coefficient3 x**2 8.871893E-01, !- Coefficient4 y -1.081399E+00, !- Coefficient5 y**2 5.804626E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 4.825053E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.89, !- Minimum Value of x 29.49, !- Maximum Value of x 0.20, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 897 kW (255 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes, !- Name 896700, !- Reference Capacity {W} 6.50, !- Reference COP {W/W} 9.82, !- Reference Leaving Chilled Water Temperature {C} 29.49, !- Reference Leaving Condenser Water Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.04423, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes CAPFT, !- Name 5.761951E-01, !- Coefficient1 Constant 5.897243E-03, !- Coefficient2 x -8.764033E-04, !- Coefficient3 x**2 3.207348E-02, !- Coefficient4 y -1.225175E-03, !- Coefficient5 y**2 2.019768E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.06, !- Minimum Value of y 29.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes EIRFT, !- Name 9.192535E-01, !- Coefficient1 Constant 9.218992E-03, !- Coefficient2 x 1.241236E-03, !- Coefficient3 x**2 -1.554079E-02, !- Coefficient4 y 1.074639E-03, !- Coefficient5 y**2 -2.071288E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.06, !- Minimum Value of y 29.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes EIRFPLR, !- Name -5.497250E-01, !- Coefficient1 Constant 5.035076E-02, !- Coefficient2 x -1.927855E-05, !- Coefficient3 x**2 1.678371E+00, !- Coefficient4 y -1.535993E+00, !- Coefficient5 y**2 -4.944902E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.396972E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.80, !- Minimum Value of x 29.49, !- Maximum Value of x 0.20, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YT 897kW/7.60COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 897 kW (255 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 897kW/7.60COP/VSD, !- Name 896700, !- Reference Capacity {W} 7.60, !- Reference COP {W/W} 9.83, !- Reference Leaving Chilled Water Temperature {C} 27.50, !- Reference Leaving Condenser Water Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 897kW/7.60COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 897kW/7.60COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 897kW/7.60COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 897kW/7.60COP/VSD CAPFT, !- Name 3.548168E-01, !- Coefficient1 Constant 3.801839E-03, !- Coefficient2 x -2.081058E-03, !- Coefficient3 x**2 5.549806E-02, !- Coefficient4 y -2.238902E-03, !- Coefficient5 y**2 3.723197E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 17.28, !- Minimum Value of y 28.76; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 897kW/7.60COP/VSD EIRFT, !- Name 4.207123E-01, !- Coefficient1 Constant 5.394605E-05, !- Coefficient2 x -3.910848E-04, !- Coefficient3 x**2 4.180526E-02, !- Coefficient4 y -1.982304E-04, !- Coefficient5 y**2 -1.128927E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 17.28, !- Minimum Value of y 28.76; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 897kW/7.60COP/VSD EIRFPLR, !- Name -1.019329E+00, !- Coefficient1 Constant 8.590218E-02, !- Coefficient2 x -1.293139E-04, !- Coefficient3 x**2 7.442374E-01, !- Coefficient4 y 2.883061E-02, !- Coefficient5 y**2 -8.027926E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.185988E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.36, !- Minimum Value of x 27.50, !- Maximum Value of x 0.10, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YT 897kW/6.27COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 897 kW (255 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 897kW/6.27COP/VSD, !- Name 896700, !- Reference Capacity {W} 6.27, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 27.61, !- Reference Leaving Condenser Water Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 897kW/6.27COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 897kW/6.27COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 897kW/6.27COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 897kW/6.27COP/VSD CAPFT, !- Name -1.279200E-01, !- Coefficient1 Constant 1.653602E-01, !- Coefficient2 x -4.202474E-03, !- Coefficient3 x**2 4.807512E-02, !- Coefficient4 y -9.553549E-04, !- Coefficient5 y**2 -2.146733E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 17.59, !- Minimum Value of y 29.04; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 897kW/6.27COP/VSD EIRFT, !- Name 3.276702E-01, !- Coefficient1 Constant -7.003986E-02, !- Coefficient2 x 5.261779E-03, !- Coefficient3 x**2 7.021494E-02, !- Coefficient4 y -7.368698E-04, !- Coefficient5 y**2 -2.109336E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 17.59, !- Minimum Value of y 29.04; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 897kW/6.27COP/VSD EIRFPLR, !- Name -3.773762E-02, !- Coefficient1 Constant 1.134114E-02, !- Coefficient2 x -2.659425E-05, !- Coefficient3 x**2 2.639446E-01, !- Coefficient4 y 4.805824E-01, !- Coefficient5 y**2 -1.117502E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 3.000515E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.25, !- Minimum Value of x 27.61, !- Maximum Value of x 0.10, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 897 kW (255 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD, !- Name 896700, !- Reference Capacity {W} 6.23, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.49, !- Reference Leaving Condenser Water Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.04442, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD CAPFT, !- Name 8.691024E-01, !- Coefficient1 Constant 2.885812E-02, !- Coefficient2 x 1.795420E-04, !- Coefficient3 x**2 4.868722E-03, !- Coefficient4 y -3.207870E-04, !- Coefficient5 y**2 3.825044E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.61, !- Minimum Value of y 30.29; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD EIRFT, !- Name 8.640049E-01, !- Coefficient1 Constant 5.766109E-03, !- Coefficient2 x 1.197122E-03, !- Coefficient3 x**2 -2.312809E-03, !- Coefficient4 y 4.642915E-04, !- Coefficient5 y**2 -1.375629E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.61, !- Minimum Value of y 30.29; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD EIRFPLR, !- Name 9.617997E-01, !- Coefficient1 Constant -8.158350E-02, !- Coefficient2 x -5.841564E-06, !- Coefficient3 x**2 1.169179E+00, !- Coefficient4 y -1.600491E+00, !- Coefficient5 y**2 8.176055E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 4.684331E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.89, !- Minimum Value of x 29.49, !- Maximum Value of x 0.20, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 932 kW (265 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes, !- Name 931900, !- Reference Capacity {W} 5.09, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 31.75, !- Reference Leaving Condenser Water Temperature {C} 0.03785, !- Reference Chilled Water Flow Rate {m3/s} 0.04732, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes CAPFT, !- Name 1.021236E+00, !- Coefficient1 Constant -1.680220E-03, !- Coefficient2 x -5.223075E-03, !- Coefficient3 x**2 2.922245E-02, !- Coefficient4 y -1.418909E-03, !- Coefficient5 y**2 4.211341E-03, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 19.66, !- Minimum Value of y 35.59; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes EIRFT, !- Name 4.854031E-01, !- Coefficient1 Constant -1.891596E-02, !- Coefficient2 x -1.236212E-03, !- Coefficient3 x**2 1.975021E-02, !- Coefficient4 y -1.031869E-04, !- Coefficient5 y**2 6.964845E-04, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 19.66, !- Minimum Value of y 35.59; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes EIRFPLR, !- Name 7.391619E-03, !- Coefficient1 Constant 9.094277E-03, !- Coefficient2 x -7.116487E-06, !- Coefficient3 x**2 1.699487E-01, !- Coefficient4 y 1.518580E+00, !- Coefficient5 y**2 -8.713759E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -7.007499E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.12, !- Minimum Value of x 31.75, !- Maximum Value of x 0.09, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YT 960kW/4.64COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 960 kW (273 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 960kW/4.64COP/Vanes, !- Name 960000, !- Reference Capacity {W} 4.64, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 32.01, !- Reference Leaving Condenser Water Temperature {C} 0.03785, !- Reference Chilled Water Flow Rate {m3/s} 0.04732, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 960kW/4.64COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 960kW/4.64COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 960kW/4.64COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.1, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 960kW/4.64COP/Vanes CAPFT, !- Name -3.474613E-01, !- Coefficient1 Constant 4.071500E-01, !- Coefficient2 x -3.270717E-02, !- Coefficient3 x**2 1.187286E-02, !- Coefficient4 y -3.117876E-04, !- Coefficient5 y**2 5.854731E-04, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 17.04, !- Minimum Value of y 35.78; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 960kW/4.64COP/Vanes EIRFT, !- Name 6.522319E-01, !- Coefficient1 Constant -1.649356E-02, !- Coefficient2 x 2.777675E-04, !- Coefficient3 x**2 3.580800E-03, !- Coefficient4 y 3.253181E-04, !- Coefficient5 y**2 -2.452307E-04, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 17.04, !- Minimum Value of y 35.78; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 960kW/4.64COP/Vanes EIRFPLR, !- Name 3.303041E-01, !- Coefficient1 Constant -1.499923E-03, !- Coefficient2 x 4.911711E-06, !- Coefficient3 x**2 3.166646E-01, !- Coefficient4 y 4.011833E-01, !- Coefficient5 y**2 1.242191E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.559734E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.25, !- Minimum Value of x 32.01, !- Maximum Value of x 0.09, !- Minimum Value of y 1.1; !- Maximum Value of y ! ReformEIRChiller York YT 1023kW/5.81COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1023 kW (291 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1023kW/5.81COP/Vanes, !- Name 1023300, !- Reference Capacity {W} 5.81, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 35.51, !- Reference Leaving Condenser Water Temperature {C} 0.02366, !- Reference Chilled Water Flow Rate {m3/s} 0.04732, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1023kW/5.81COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1023kW/5.81COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1023kW/5.81COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1023kW/5.81COP/Vanes CAPFT, !- Name -3.395788E-01, !- Coefficient1 Constant -3.084319E-02, !- Coefficient2 x -5.520572E-03, !- Coefficient3 x**2 1.112148E-01, !- Coefficient4 y -2.662980E-03, !- Coefficient5 y**2 5.099892E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.34, !- Minimum Value of y 40.55; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1023kW/5.81COP/Vanes EIRFT, !- Name 6.129429E-01, !- Coefficient1 Constant -1.403780E-02, !- Coefficient2 x 1.331529E-03, !- Coefficient3 x**2 -2.182097E-04, !- Coefficient4 y 5.502817E-04, !- Coefficient5 y**2 -1.092920E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.34, !- Minimum Value of y 40.55; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1023kW/5.81COP/Vanes EIRFPLR, !- Name 2.511511E-01, !- Coefficient1 Constant 8.555669E-03, !- Coefficient2 x -3.399815E-05, !- Coefficient3 x**2 -2.271964E-01, !- Coefficient4 y 1.450679E+00, !- Coefficient5 y**2 -6.729414E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.981512E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.58, !- Minimum Value of x 35.51, !- Maximum Value of x 0.09, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1030 kW (293 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes, !- Name 1030300, !- Reference Capacity {W} 8.58, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 20.86, !- Reference Leaving Condenser Water Temperature {C} 0.02378, !- Reference Chilled Water Flow Rate {m3/s} 0.03407, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.08, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.08, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes CAPFT, !- Name 6.367679E-01, !- Coefficient1 Constant 2.637864E-02, !- Coefficient2 x -4.503997E-03, !- Coefficient3 x**2 2.614644E-02, !- Coefficient4 y -1.509627E-03, !- Coefficient5 y**2 3.809305E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 20.86, !- Minimum Value of y 32.69; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes EIRFT, !- Name 5.347930E-01, !- Coefficient1 Constant -1.901560E-03, !- Coefficient2 x -1.999168E-03, !- Coefficient3 x**2 2.601989E-02, !- Coefficient4 y -1.174414E-04, !- Coefficient5 y**2 4.209479E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 20.86, !- Minimum Value of y 32.69; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes EIRFPLR, !- Name 3.869427E-01, !- Coefficient1 Constant -1.316341E-03, !- Coefficient2 x 4.231383E-05, !- Coefficient3 x**2 -9.777673E-02, !- Coefficient4 y 8.539824E-01, !- Coefficient5 y**2 -7.526877E-04, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.180591E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.38, !- Minimum Value of x 30.07, !- Maximum Value of x 0.08, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YT 1048kW/6.06COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1048 kW (298 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1048kW/6.06COP/Vanes, !- Name 1047900, !- Reference Capacity {W} 6.06, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 34.59, !- Reference Leaving Condenser Water Temperature {C} 0.04542, !- Reference Chilled Water Flow Rate {m3/s} 0.05678, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1048kW/6.06COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1048kW/6.06COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1048kW/6.06COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1048kW/6.06COP/Vanes CAPFT, !- Name 5.846663E-01, !- Coefficient1 Constant 1.059863E-02, !- Coefficient2 x -5.058695E-03, !- Coefficient3 x**2 3.006085E-02, !- Coefficient4 y -9.364366E-04, !- Coefficient5 y**2 2.597223E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.43, !- Minimum Value of y 39.72; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1048kW/6.06COP/Vanes EIRFT, !- Name 7.745270E-01, !- Coefficient1 Constant -3.256346E-02, !- Coefficient2 x 2.992117E-03, !- Coefficient3 x**2 -5.274460E-03, !- Coefficient4 y 6.701377E-04, !- Coefficient5 y**2 -1.236258E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.43, !- Minimum Value of y 39.72; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1048kW/6.06COP/Vanes EIRFPLR, !- Name 5.753623E-01, !- Coefficient1 Constant -1.409335E-02, !- Coefficient2 x -5.983885E-06, !- Coefficient3 x**2 6.063425E-01, !- Coefficient4 y -3.090569E-01, !- Coefficient5 y**2 1.412467E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.296066E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 30.04, !- Minimum Value of x 34.59, !- Maximum Value of x 0.10, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller York YT 1055kW/5.96COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1055 kW (300 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1055kW/5.96COP/Vanes, !- Name 1055000, !- Reference Capacity {W} 5.96, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 34.63, !- Reference Leaving Condenser Water Temperature {C} 0.02839, !- Reference Chilled Water Flow Rate {m3/s} 0.05678, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1055kW/5.96COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1055kW/5.96COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1055kW/5.96COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1055kW/5.96COP/Vanes CAPFT, !- Name -2.707500E-01, !- Coefficient1 Constant -6.904583E-02, !- Coefficient2 x -2.862217E-03, !- Coefficient3 x**2 1.116660E-01, !- Coefficient4 y -2.741006E-03, !- Coefficient5 y**2 5.573759E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.24, !- Minimum Value of y 39.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1055kW/5.96COP/Vanes EIRFT, !- Name 5.864611E-01, !- Coefficient1 Constant -1.981483E-02, !- Coefficient2 x 1.189656E-03, !- Coefficient3 x**2 4.468905E-03, !- Coefficient4 y 4.366968E-04, !- Coefficient5 y**2 -7.679079E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.24, !- Minimum Value of y 39.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1055kW/5.96COP/Vanes EIRFPLR, !- Name 2.585491E-01, !- Coefficient1 Constant 8.250769E-03, !- Coefficient2 x -3.231494E-05, !- Coefficient3 x**2 -8.921620E-02, !- Coefficient4 y 1.025668E+00, !- Coefficient5 y**2 -6.495267E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.179388E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.55, !- Minimum Value of x 34.63, !- Maximum Value of x 0.10, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1076 kW (306 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes, !- Name 1076100, !- Reference Capacity {W} 5.52, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 31.30, !- Reference Leaving Condenser Water Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.04744, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes CAPFT, !- Name 8.850533E-01, !- Coefficient1 Constant 2.837149E-02, !- Coefficient2 x -5.511387E-03, !- Coefficient3 x**2 8.194635E-03, !- Coefficient4 y -6.603948E-04, !- Coefficient5 y**2 2.956238E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 19.50, !- Minimum Value of y 32.15; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes EIRFT, !- Name 7.658820E-01, !- Coefficient1 Constant 1.245831E-02, !- Coefficient2 x -4.811737E-03, !- Coefficient3 x**2 -2.449180E-03, !- Coefficient4 y 1.633990E-04, !- Coefficient5 y**2 1.270390E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 19.50, !- Minimum Value of y 32.15; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes EIRFPLR, !- Name -4.774361E-01, !- Coefficient1 Constant 5.162751E-02, !- Coefficient2 x -5.614109E-05, !- Coefficient3 x**2 -2.035828E-01, !- Coefficient4 y 1.353459E+00, !- Coefficient5 y**2 -4.892949E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 2.956492E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.43, !- Minimum Value of x 31.10, !- Maximum Value of x 0.10, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1080 kW (307 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes, !- Name 1079600, !- Reference Capacity {W} 7.39, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 28.18, !- Reference Leaving Condenser Water Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.06416, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes CAPFT, !- Name 1.621590E-01, !- Coefficient1 Constant -5.637755E-02, !- Coefficient2 x -2.763571E-03, !- Coefficient3 x**2 7.658390E-02, !- Coefficient4 y -2.167501E-03, !- Coefficient5 y**2 4.940163E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.34, !- Minimum Value of y 28.77; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes EIRFT, !- Name 2.583099E-01, !- Coefficient1 Constant -5.295487E-02, !- Coefficient2 x 5.742775E-05, !- Coefficient3 x**2 3.724845E-02, !- Coefficient4 y -1.705687E-04, !- Coefficient5 y**2 7.265593E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.34, !- Minimum Value of y 28.77; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes EIRFPLR, !- Name -2.528901E-01, !- Coefficient1 Constant 5.293978E-02, !- Coefficient2 x -1.671838E-05, !- Coefficient3 x**2 -7.241218E-02, !- Coefficient4 y 1.197879E+00, !- Coefficient5 y**2 -5.205361E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.156312E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.66, !- Minimum Value of x 28.07, !- Maximum Value of x 0.20, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller York YT 1090kW/7.57COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1090 kW (310 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1090kW/7.57COP/VSD, !- Name 1090100, !- Reference Capacity {W} 7.57, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 28.52, !- Reference Leaving Condenser Water Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1090kW/7.57COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1090kW/7.57COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1090kW/7.57COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1090kW/7.57COP/VSD CAPFT, !- Name 5.432784E-01, !- Coefficient1 Constant 4.854908E-02, !- Coefficient2 x -8.778732E-04, !- Coefficient3 x**2 2.814444E-02, !- Coefficient4 y -9.314140E-04, !- Coefficient5 y**2 8.240584E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 19.00, !- Minimum Value of y 30.79; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1090kW/7.57COP/VSD EIRFT, !- Name 8.635874E-01, !- Coefficient1 Constant -6.482460E-02, !- Coefficient2 x -2.524813E-04, !- Coefficient3 x**2 2.842929E-02, !- Coefficient4 y -4.007377E-04, !- Coefficient5 y**2 1.830138E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 19.00, !- Minimum Value of y 30.79; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1090kW/7.57COP/VSD EIRFPLR, !- Name -1.594094E+00, !- Coefficient1 Constant 1.294337E-01, !- Coefficient2 x -2.100100E-04, !- Coefficient3 x**2 1.659018E+00, !- Coefficient4 y -2.605622E+00, !- Coefficient5 y**2 -1.199783E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 3.435191E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.54, !- Minimum Value of x 28.52, !- Maximum Value of x 0.14, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1104 kW (314 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes, !- Name 1104200, !- Reference Capacity {W} 8.00, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 22.59, !- Reference Leaving Condenser Water Temperature {C} 0.02423, !- Reference Chilled Water Flow Rate {m3/s} 0.03028, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.08, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.08, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes CAPFT, !- Name 7.757836E-01, !- Coefficient1 Constant 1.723720E-02, !- Coefficient2 x -2.761789E-03, !- Coefficient3 x**2 1.560171E-02, !- Coefficient4 y -1.133168E-03, !- Coefficient5 y**2 3.042701E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 22.59, !- Minimum Value of y 34.29; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes EIRFT, !- Name 7.355874E-01, !- Coefficient1 Constant -1.291195E-02, !- Coefficient2 x -1.168928E-03, !- Coefficient3 x**2 1.454443E-02, !- Coefficient4 y -4.975714E-06, !- Coefficient5 y**2 4.941841E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 22.59, !- Minimum Value of y 34.29; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes EIRFPLR, !- Name 2.216357E-01, !- Coefficient1 Constant 6.972382E-03, !- Coefficient2 x 5.022616E-05, !- Coefficient3 x**2 -3.939145E-02, !- Coefficient4 y 9.582611E-01, !- Coefficient5 y**2 -9.691500E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.039758E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.56, !- Minimum Value of x 31.51, !- Maximum Value of x 0.08, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YT 1125kW/7.92COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1125 kW (320 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1125kW/7.92COP/VSD, !- Name 1125300, !- Reference Capacity {W} 7.92, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 18.64, !- Reference Leaving Condenser Water Temperature {C} 0.03243, !- Reference Chilled Water Flow Rate {m3/s} 0.05173, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1125kW/7.92COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1125kW/7.92COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1125kW/7.92COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1125kW/7.92COP/VSD CAPFT, !- Name -1.825851E-01, !- Coefficient1 Constant -1.890742E-02, !- Coefficient2 x -1.452495E-03, !- Coefficient3 x**2 9.494132E-02, !- Coefficient4 y -2.160634E-03, !- Coefficient5 y**2 2.833148E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.64, !- Minimum Value of y 31.75; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1125kW/7.92COP/VSD EIRFT, !- Name 6.772525E-01, !- Coefficient1 Constant -1.573620E-02, !- Coefficient2 x 1.805356E-03, !- Coefficient3 x**2 2.061048E-02, !- Coefficient4 y 5.587604E-04, !- Coefficient5 y**2 -2.014421E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.64, !- Minimum Value of y 31.75; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1125kW/7.92COP/VSD EIRFPLR, !- Name 3.110875E-01, !- Coefficient1 Constant -5.972965E-03, !- Coefficient2 x -8.888194E-05, !- Coefficient3 x**2 -5.317766E-01, !- Coefficient4 y 1.932563E+00, !- Coefficient5 y**2 1.040312E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -7.660775E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.35, !- Minimum Value of x 29.51, !- Maximum Value of x 0.09, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1125 kW (320 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes, !- Name 1125300, !- Reference Capacity {W} 4.89, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 36.27, !- Reference Leaving Condenser Water Temperature {C} 0.02776, !- Reference Chilled Water Flow Rate {m3/s} 0.02618, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes CAPFT, !- Name 3.738655E-01, !- Coefficient1 Constant -1.966419E-02, !- Coefficient2 x -1.212112E-03, !- Coefficient3 x**2 3.549468E-02, !- Coefficient4 y -5.800042E-04, !- Coefficient5 y**2 1.250514E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 26.10, !- Minimum Value of y 36.56; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes EIRFT, !- Name 4.744658E-01, !- Coefficient1 Constant -3.998991E-02, !- Coefficient2 x -8.170569E-05, !- Coefficient3 x**2 1.686296E-02, !- Coefficient4 y 8.315397E-05, !- Coefficient5 y**2 1.607491E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 26.10, !- Minimum Value of y 36.56; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes EIRFPLR, !- Name 3.526188E-01, !- Coefficient1 Constant -2.052741E-03, !- Coefficient2 x 5.127782E-06, !- Coefficient3 x**2 -3.558764E-01, !- Coefficient4 y 1.168571E+00, !- Coefficient5 y**2 1.752891E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.609826E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.57, !- Minimum Value of x 34.89, !- Maximum Value of x 0.10, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller York YT 1125kW/7.92COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1125 kW (320 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1125kW/7.92COP/VSD_2, !- Name 1125300, !- Reference Capacity {W} 7.92, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 18.64, !- Reference Leaving Condenser Water Temperature {C} 0.03243, !- Reference Chilled Water Flow Rate {m3/s} 0.05173, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1125kW/7.92COP/VSD CAPFT_2, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1125kW/7.92COP/VSD EIRFT_2, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1125kW/7.92COP/VSD EIRFPLR_2, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1125kW/7.92COP/VSD CAPFT_2, !- Name -1.825851E-01, !- Coefficient1 Constant -1.890742E-02, !- Coefficient2 x -1.452495E-03, !- Coefficient3 x**2 9.494132E-02, !- Coefficient4 y -2.160634E-03, !- Coefficient5 y**2 2.833148E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.64, !- Minimum Value of y 31.75; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1125kW/7.92COP/VSD EIRFT_2, !- Name 6.772525E-01, !- Coefficient1 Constant -1.573620E-02, !- Coefficient2 x 1.805356E-03, !- Coefficient3 x**2 2.061048E-02, !- Coefficient4 y 5.587604E-04, !- Coefficient5 y**2 -2.014421E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.64, !- Minimum Value of y 31.75; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1125kW/7.92COP/VSD EIRFPLR_2, !- Name 3.110875E-01, !- Coefficient1 Constant -5.972965E-03, !- Coefficient2 x -8.888194E-05, !- Coefficient3 x**2 -5.317766E-01, !- Coefficient4 y 1.932563E+00, !- Coefficient5 y**2 1.040312E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -7.660775E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.35, !- Minimum Value of x 29.51, !- Maximum Value of x 0.09, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1129 kW (321 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes, !- Name 1128800, !- Reference Capacity {W} 7.19, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 29.87, !- Reference Leaving Condenser Water Temperature {C} 0.02776, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.15, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.15, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes CAPFT, !- Name 4.234935E-02, !- Coefficient1 Constant -6.711406E-02, !- Coefficient2 x -2.677761E-03, !- Coefficient3 x**2 8.534835E-02, !- Coefficient4 y -2.240897E-03, !- Coefficient5 y**2 5.028453E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.75, !- Minimum Value of y 30.64; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes EIRFT, !- Name 2.480712E-01, !- Coefficient1 Constant -5.163331E-02, !- Coefficient2 x -3.517164E-04, !- Coefficient3 x**2 3.943482E-02, !- Coefficient4 y -3.224045E-04, !- Coefficient5 y**2 9.124398E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.75, !- Minimum Value of y 30.64; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes EIRFPLR, !- Name 2.681887E-01, !- Coefficient1 Constant -1.329414E-03, !- Coefficient2 x -1.542108E-05, !- Coefficient3 x**2 5.321500E-01, !- Coefficient4 y -2.230911E-01, !- Coefficient5 y**2 2.236942E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 4.101272E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.20, !- Minimum Value of x 28.69, !- Maximum Value of x 0.15, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1143 kW (325 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD, !- Name 1142900, !- Reference Capacity {W} 6.57, !- Reference COP {W/W} 10.00, !- Reference Leaving Chilled Water Temperature {C} 32.79, !- Reference Leaving Condenser Water Temperature {C} 0.02593, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD CAPFT, !- Name 7.863855E-01, !- Coefficient1 Constant 3.259744E-02, !- Coefficient2 x -1.927704E-03, !- Coefficient3 x**2 4.333411E-03, !- Coefficient4 y -6.022390E-04, !- Coefficient5 y**2 1.809424E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.02, !- Minimum Value of y 33.61; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD EIRFT, !- Name 9.612126E-01, !- Coefficient1 Constant -1.211702E-02, !- Coefficient2 x 1.782802E-04, !- Coefficient3 x**2 -2.807827E-03, !- Coefficient4 y 2.421828E-04, !- Coefficient5 y**2 1.165934E-05, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.02, !- Minimum Value of y 33.61; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD EIRFPLR, !- Name -1.922490E-02, !- Coefficient1 Constant 1.026695E-02, !- Coefficient2 x -3.079249E-05, !- Coefficient3 x**2 1.432686E-01, !- Coefficient4 y 4.844691E-01, !- Coefficient5 y**2 -8.952298E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 3.774796E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.95, !- Minimum Value of x 32.79, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1157 kW (329 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD, !- Name 1156900, !- Reference Capacity {W} 5.62, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 31.34, !- Reference Leaving Condenser Water Temperature {C} 0.02801, !- Reference Chilled Water Flow Rate {m3/s} 0.03186, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD CAPFT, !- Name 1.095494E+00, !- Coefficient1 Constant -5.546137E-03, !- Coefficient2 x -5.186584E-04, !- Coefficient3 x**2 1.420446E-03, !- Coefficient4 y -2.801603E-04, !- Coefficient5 y**2 1.007864E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 21.97, !- Minimum Value of y 34.50; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD EIRFT, !- Name 1.221566E+00, !- Coefficient1 Constant -2.771462E-02, !- Coefficient2 x 1.220059E-03, !- Coefficient3 x**2 -2.228215E-02, !- Coefficient4 y 7.578438E-04, !- Coefficient5 y**2 -8.532836E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 21.97, !- Minimum Value of y 34.50; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD EIRFPLR, !- Name 2.260949E-01, !- Coefficient1 Constant -1.619690E-02, !- Coefficient2 x 2.953765E-06, !- Coefficient3 x**2 4.956395E-01, !- Coefficient4 y 1.180777E-01, !- Coefficient5 y**2 1.582337E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.675772E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.12, !- Minimum Value of x 32.10, !- Maximum Value of x 0.19, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1196 kW (340 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes, !- Name 1195600, !- Reference Capacity {W} 6.50, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 31.65, !- Reference Leaving Condenser Water Temperature {C} 0.03426, !- Reference Chilled Water Flow Rate {m3/s} 0.04252, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes CAPFT, !- Name 1.006647E+00, !- Coefficient1 Constant -3.596242E-02, !- Coefficient2 x -2.549306E-03, !- Coefficient3 x**2 2.690324E-02, !- Coefficient4 y -1.255051E-03, !- Coefficient5 y**2 3.669880E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 21.72, !- Minimum Value of y 33.03; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes EIRFT, !- Name 1.001094E+00, !- Coefficient1 Constant -1.641469E-02, !- Coefficient2 x 3.314844E-04, !- Coefficient3 x**2 -1.095655E-02, !- Coefficient4 y 5.687863E-04, !- Coefficient5 y**2 -4.694134E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 21.72, !- Minimum Value of y 33.03; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes EIRFPLR, !- Name 1.659565E-01, !- Coefficient1 Constant 2.824668E-03, !- Coefficient2 x -4.941235E-05, !- Coefficient3 x**2 9.544016E-01, !- Coefficient4 y -7.843794E-01, !- Coefficient5 y**2 -1.991887E-04, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 6.294448E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.58, !- Minimum Value of x 31.65, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1213 kW (345 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes, !- Name 1213200, !- Reference Capacity {W} 7.78, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 19.63, !- Reference Leaving Condenser Water Temperature {C} 0.03243, !- Reference Chilled Water Flow Rate {m3/s} 0.04782, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes CAPFT, !- Name 7.578317E-01, !- Coefficient1 Constant -2.467497E-02, !- Coefficient2 x -1.185171E-03, !- Coefficient3 x**2 3.095499E-02, !- Coefficient4 y -1.160103E-03, !- Coefficient5 y**2 2.330164E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 19.63, !- Minimum Value of y 30.97; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes EIRFT, !- Name 1.009816E+00, !- Coefficient1 Constant -1.640134E-02, !- Coefficient2 x 7.295439E-04, !- Coefficient3 x**2 -5.050832E-03, !- Coefficient4 y 6.901476E-04, !- Coefficient5 y**2 -9.104064E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 19.63, !- Minimum Value of y 30.97; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes EIRFPLR, !- Name 2.257912E-01, !- Coefficient1 Constant 3.697616E-03, !- Coefficient2 x -2.645195E-05, !- Coefficient3 x**2 7.936322E-01, !- Coefficient4 y -4.424994E-01, !- Coefficient5 y**2 -2.424456E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 4.078706E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.10, !- Minimum Value of x 29.98, !- Maximum Value of x 0.17, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1231 kW (350 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes, !- Name 1230800, !- Reference Capacity {W} 6.18, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 29.47, !- Reference Leaving Condenser Water Temperature {C} 0.03533, !- Reference Chilled Water Flow Rate {m3/s} 0.0511, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes CAPFT, !- Name 1.253381E+00, !- Coefficient1 Constant 8.875124E-02, !- Coefficient2 x -8.323384E-03, !- Coefficient3 x**2 -1.024474E-02, !- Coefficient4 y -6.751294E-04, !- Coefficient5 y**2 2.456063E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 20.98, !- Minimum Value of y 31.25; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes EIRFT, !- Name 8.880010E-01, !- Coefficient1 Constant -9.202757E-03, !- Coefficient2 x -5.021594E-03, !- Coefficient3 x**2 -9.074393E-03, !- Coefficient4 y 2.554841E-04, !- Coefficient5 y**2 2.313326E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 20.98, !- Minimum Value of y 31.25; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes EIRFPLR, !- Name 1.651794E-01, !- Coefficient1 Constant -3.089335E-03, !- Coefficient2 x 2.301100E-04, !- Coefficient3 x**2 1.104907E+00, !- Coefficient4 y -8.157905E-01, !- Coefficient5 y**2 -8.477359E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 6.893449E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.36, !- Minimum Value of x 30.61, !- Maximum Value of x 0.10, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1234 kW (351 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = N/A ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD, !- Name 1234300, !- Reference Capacity {W} 5.39, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 35.73, !- Reference Leaving Condenser Water Temperature {C} 0.02593, !- Reference Chilled Water Flow Rate {m3/s} 0.03861, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD CAPFT, !- Name 6.134255E-01, !- Coefficient1 Constant 1.092476E-01, !- Coefficient2 x -7.352739E-03, !- Coefficient3 x**2 -2.589985E-03, !- Coefficient4 y -3.793512E-04, !- Coefficient5 y**2 1.839978E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 22.24, !- Minimum Value of y 36.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD EIRFT, !- Name 4.746375E-01, !- Coefficient1 Constant 9.120326E-02, !- Coefficient2 x -7.295060E-03, !- Coefficient3 x**2 -5.662273E-03, !- Coefficient4 y 1.928027E-04, !- Coefficient5 y**2 8.244779E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 22.24, !- Minimum Value of y 36.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD EIRFPLR, !- Name 1.207212E-01, !- Coefficient1 Constant -9.914826E-03, !- Coefficient2 x 1.854918E-05, !- Coefficient3 x**2 9.880331E-01, !- Coefficient4 y -8.955866E-01, !- Coefficient5 y**2 8.894574E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 8.005552E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.38, !- Minimum Value of x 34.99, !- Maximum Value of x 0.19, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1259 kW (358 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes, !- Name 1258900, !- Reference Capacity {W} 6.26, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 35.80, !- Reference Leaving Condenser Water Temperature {C} 0.02593, !- Reference Chilled Water Flow Rate {m3/s} 0.03823, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes CAPFT, !- Name 1.013444E+00, !- Coefficient1 Constant -3.162384E-03, !- Coefficient2 x -4.418949E-03, !- Coefficient3 x**2 1.601141E-02, !- Coefficient4 y -1.029678E-03, !- Coefficient5 y**2 3.508932E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 22.61, !- Minimum Value of y 36.74; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes EIRFT, !- Name 7.661241E-01, !- Coefficient1 Constant 1.157734E-02, !- Coefficient2 x -8.937094E-04, !- Coefficient3 x**2 -6.824770E-03, !- Coefficient4 y 5.288283E-04, !- Coefficient5 y**2 -7.378113E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 22.61, !- Minimum Value of y 36.74; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes EIRFPLR, !- Name 4.602131E-02, !- Coefficient1 Constant 2.433945E-02, !- Coefficient2 x 6.394526E-05, !- Coefficient3 x**2 -3.648563E-01, !- Coefficient4 y 1.854759E+00, !- Coefficient5 y**2 -2.809346E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.821515E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.56, !- Minimum Value of x 34.97, !- Maximum Value of x 0.18, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YK 1259kW/6.45COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 1259 kW (358 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 1259kW/6.45COP/Vanes, !- Name 1258900, !- Reference Capacity {W} 6.45, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 32.24, !- Reference Leaving Condenser Water Temperature {C} 0.02631, !- Reference Chilled Water Flow Rate {m3/s} 0.06246, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 1259kW/6.45COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 1259kW/6.45COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 1259kW/6.45COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 1259kW/6.45COP/Vanes CAPFT, !- Name 7.917669E-01, !- Coefficient1 Constant 7.718144E-02, !- Coefficient2 x -1.868147E-03, !- Coefficient3 x**2 2.168367E-02, !- Coefficient4 y -9.454040E-04, !- Coefficient5 y**2 -1.251512E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.63, !- Minimum Value of y 32.83; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 1259kW/6.45COP/Vanes EIRFT, !- Name 1.207755E+00, !- Coefficient1 Constant 2.704147E-02, !- Coefficient2 x -1.882949E-05, !- Coefficient3 x**2 -5.234106E-02, !- Coefficient4 y 1.851447E-03, !- Coefficient5 y**2 -2.375891E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.63, !- Minimum Value of y 32.83; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 1259kW/6.45COP/Vanes EIRFPLR, !- Name -3.830726E-01, !- Coefficient1 Constant 3.222162E-02, !- Coefficient2 x 7.399276E-05, !- Coefficient3 x**2 3.649000E-01, !- Coefficient4 y 1.497231E+00, !- Coefficient5 y**2 -3.597905E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.321713E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.89, !- Minimum Value of x 31.82, !- Maximum Value of x 0.18, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YT 1266kW/4.39COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1266 kW (360 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1266kW/4.39COP/Vanes, !- Name 1266000, !- Reference Capacity {W} 4.39, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 41.44, !- Reference Leaving Condenser Water Temperature {C} 0.03533, !- Reference Chilled Water Flow Rate {m3/s} 0.05773, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1266kW/4.39COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1266kW/4.39COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1266kW/4.39COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.11, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.11, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1266kW/4.39COP/Vanes CAPFT, !- Name 1.556501E-03, !- Coefficient1 Constant -4.410896E-02, !- Coefficient2 x -1.854492E-03, !- Coefficient3 x**2 6.411584E-02, !- Coefficient4 y -1.204698E-03, !- Coefficient5 y**2 3.060359E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 17.28, !- Minimum Value of y 42.31; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1266kW/4.39COP/Vanes EIRFT, !- Name 1.265473E-01, !- Coefficient1 Constant 5.028662E-02, !- Coefficient2 x -4.704162E-03, !- Coefficient3 x**2 7.913033E-03, !- Coefficient4 y 3.096000E-04, !- Coefficient5 y**2 -4.283498E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 17.28, !- Minimum Value of y 42.31; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1266kW/4.39COP/Vanes EIRFPLR, !- Name 1.253346E+00, !- Coefficient1 Constant -3.406609E-02, !- Coefficient2 x 1.893094E-04, !- Coefficient3 x**2 2.554443E-01, !- Coefficient4 y -1.655620E+00, !- Coefficient5 y**2 2.220865E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.319681E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.55, !- Minimum Value of x 29.97, !- Maximum Value of x 0.11, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1284 kW (365 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes, !- Name 1283500, !- Reference Capacity {W} 6.20, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 29.46, !- Reference Leaving Condenser Water Temperature {C} 0.03684, !- Reference Chilled Water Flow Rate {m3/s} 0.05337, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes CAPFT, !- Name 1.115795E+00, !- Coefficient1 Constant -2.963853E-02, !- Coefficient2 x -1.135671E-03, !- Coefficient3 x**2 4.184083E-03, !- Coefficient4 y -4.382921E-04, !- Coefficient5 y**2 2.096512E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 19.55, !- Minimum Value of y 30.85; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes EIRFT, !- Name 7.586434E-01, !- Coefficient1 Constant -1.231609E-02, !- Coefficient2 x 1.784584E-03, !- Coefficient3 x**2 -2.678401E-03, !- Coefficient4 y 6.302421E-04, !- Coefficient5 y**2 -1.385469E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 19.55, !- Minimum Value of y 30.85; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes EIRFPLR, !- Name 9.435414E-01, !- Coefficient1 Constant -6.553709E-02, !- Coefficient2 x 1.115089E-04, !- Coefficient3 x**2 1.530548E+00, !- Coefficient4 y -1.486930E+00, !- Coefficient5 y**2 6.031382E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 7.320523E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 15.30, !- Minimum Value of x 30.57, !- Maximum Value of x 0.20, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1294 kW (368 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes, !- Name 1294100, !- Reference Capacity {W} 7.61, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 20.18, !- Reference Leaving Condenser Water Temperature {C} 0.03243, !- Reference Chilled Water Flow Rate {m3/s} 0.04732, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.16, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.16, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes CAPFT, !- Name 8.542077E-01, !- Coefficient1 Constant -5.459736E-03, !- Coefficient2 x -1.943025E-03, !- Coefficient3 x**2 1.670770E-02, !- Coefficient4 y -9.079473E-04, !- Coefficient5 y**2 2.332448E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 20.18, !- Minimum Value of y 31.56; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes EIRFT, !- Name 1.167182E+00, !- Coefficient1 Constant -4.534610E-03, !- Coefficient2 x -2.394329E-03, !- Coefficient3 x**2 -1.568154E-02, !- Coefficient4 y 4.922543E-04, !- Coefficient5 y**2 5.971107E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 20.18, !- Minimum Value of y 31.56; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes EIRFPLR, !- Name -2.942311E-02, !- Coefficient1 Constant 2.842914E-02, !- Coefficient2 x -1.096497E-05, !- Coefficient3 x**2 -1.072984E+00, !- Coefficient4 y 3.343046E+00, !- Coefficient5 y**2 -2.769791E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.251621E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.02, !- Minimum Value of x 30.01, !- Maximum Value of x 0.16, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1329 kW (378 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes, !- Name 1329300, !- Reference Capacity {W} 5.38, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 34.80, !- Reference Leaving Condenser Water Temperature {C} 0.04732, !- Reference Chilled Water Flow Rate {m3/s} 0.07098, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.29, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.29, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes CAPFT, !- Name 2.971340E-01, !- Coefficient1 Constant 1.063097E-01, !- Coefficient2 x -4.449876E-03, !- Coefficient3 x**2 2.540435E-02, !- Coefficient4 y -5.696223E-04, !- Coefficient5 y**2 1.269921E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 10.00, !- Maximum Value of x 26.77, !- Minimum Value of y 41.98; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes EIRFT, !- Name 9.460623E-01, !- Coefficient1 Constant 3.685465E-02, !- Coefficient2 x -7.530867E-04, !- Coefficient3 x**2 -1.753701E-02, !- Coefficient4 y 5.832929E-04, !- Coefficient5 y**2 -1.143458E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 10.00, !- Maximum Value of x 26.77, !- Minimum Value of y 41.98; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes EIRFPLR, !- Name -9.512023E-02, !- Coefficient1 Constant 8.704652E-03, !- Coefficient2 x -6.499682E-06, !- Coefficient3 x**2 1.336749E+00, !- Coefficient4 y -6.968012E-01, !- Coefficient5 y**2 -8.318175E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 4.497796E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 21.44, !- Minimum Value of x 41.11, !- Maximum Value of x 0.29, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1350 kW (384 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD, !- Name 1350400, !- Reference Capacity {W} 7.90, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 19.60, !- Reference Leaving Condenser Water Temperature {C} 0.03684, !- Reference Chilled Water Flow Rate {m3/s} 0.05337, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD CAPFT, !- Name 1.060586E+00, !- Coefficient1 Constant -2.817204E-02, !- Coefficient2 x -1.079479E-03, !- Coefficient3 x**2 3.977058E-03, !- Coefficient4 y -4.166057E-04, !- Coefficient5 y**2 1.992778E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 19.55, !- Minimum Value of y 30.85; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD EIRFT, !- Name 9.661627E-01, !- Coefficient1 Constant -1.568504E-02, !- Coefficient2 x 2.272739E-03, !- Coefficient3 x**2 -3.411051E-03, !- Coefficient4 y 8.026386E-04, !- Coefficient5 y**2 -1.764450E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 19.55, !- Minimum Value of y 30.85; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD EIRFPLR, !- Name 1.868582E+00, !- Coefficient1 Constant -1.412449E-01, !- Coefficient2 x 2.563520E-04, !- Coefficient3 x**2 8.432680E-01, !- Coefficient4 y -1.538206E+00, !- Coefficient5 y**2 1.292323E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -3.507772E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 15.22, !- Minimum Value of x 30.57, !- Maximum Value of x 0.19, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YT 1368kW/7.35COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1368 kW (389 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1368kW/7.35COP/VSD, !- Name 1367900, !- Reference Capacity {W} 7.35, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 28.80, !- Reference Leaving Condenser Water Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.07571, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1368kW/7.35COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1368kW/7.35COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1368kW/7.35COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1368kW/7.35COP/VSD CAPFT, !- Name -1.988920E-01, !- Coefficient1 Constant -1.019014E-01, !- Coefficient2 x -4.605586E-03, !- Coefficient3 x**2 1.364167E-01, !- Coefficient4 y -4.142785E-03, !- Coefficient5 y**2 8.790965E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.76, !- Minimum Value of y 34.51; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1368kW/7.35COP/VSD EIRFT, !- Name 1.787713E-01, !- Coefficient1 Constant -1.943742E-02, !- Coefficient2 x -5.155001E-03, !- Coefficient3 x**2 4.314534E-02, !- Coefficient4 y -5.446713E-04, !- Coefficient5 y**2 2.049096E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.76, !- Minimum Value of y 34.51; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1368kW/7.35COP/VSD EIRFPLR, !- Name -4.466479E-01, !- Coefficient1 Constant 1.188856E-01, !- Coefficient2 x -5.385997E-05, !- Coefficient3 x**2 -2.756308E+00, !- Coefficient4 y 4.709118E+00, !- Coefficient5 y**2 -1.161211E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -5.402852E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 10.76, !- Minimum Value of x 25.87, !- Maximum Value of x 0.10, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1372 kW (390 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes, !- Name 1371500, !- Reference Capacity {W} 7.49, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 28.80, !- Reference Leaving Condenser Water Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.07571, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.41, !- Minimum Part Load Ratio 1.11, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.41, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes CAPFT, !- Name 3.397637E-01, !- Coefficient1 Constant 3.431595E-02, !- Coefficient2 x -1.008753E-02, !- Coefficient3 x**2 5.766544E-02, !- Coefficient4 y -2.300721E-03, !- Coefficient5 y**2 6.035544E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.87, !- Minimum Value of y 34.26; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes EIRFT, !- Name 1.033692E+00, !- Coefficient1 Constant 3.558404E-02, !- Coefficient2 x 3.589722E-03, !- Coefficient3 x**2 -2.717762E-02, !- Coefficient4 y 1.379031E-03, !- Coefficient5 y**2 -4.158610E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.87, !- Minimum Value of y 34.26; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes EIRFPLR, !- Name 4.723036E-01, !- Coefficient1 Constant 8.571830E-03, !- Coefficient2 x 4.576667E-05, !- Coefficient3 x**2 -1.502847E+00, !- Coefficient4 y 3.731872E+00, !- Coefficient5 y**2 -1.107635E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.669562E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.02, !- Minimum Value of x 28.37, !- Maximum Value of x 0.41, !- Minimum Value of y 1.11; !- Maximum Value of y ! ReformEIRChiller York YT 1396kW/7.35COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1396 kW (397 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1396kW/7.35COP/Vanes, !- Name 1396100, !- Reference Capacity {W} 7.35, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 28.90, !- Reference Leaving Condenser Water Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.07571, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1396kW/7.35COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1396kW/7.35COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1396kW/7.35COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1396kW/7.35COP/Vanes CAPFT, !- Name 3.601322E-02, !- Coefficient1 Constant -9.771124E-02, !- Coefficient2 x -2.845248E-03, !- Coefficient3 x**2 1.124508E-01, !- Coefficient4 y -3.477685E-03, !- Coefficient5 y**2 7.688650E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.94, !- Minimum Value of y 34.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1396kW/7.35COP/Vanes EIRFT, !- Name 4.546708E-01, !- Coefficient1 Constant 3.725193E-03, !- Coefficient2 x -1.145409E-04, !- Coefficient3 x**2 1.695408E-02, !- Coefficient4 y 3.224089E-04, !- Coefficient5 y**2 -1.265009E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.94, !- Minimum Value of y 34.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1396kW/7.35COP/Vanes EIRFPLR, !- Name -2.549993E-01, !- Coefficient1 Constant 1.161730E-01, !- Coefficient2 x 1.913023E-06, !- Coefficient3 x**2 -3.306674E+00, !- Coefficient4 y 5.813195E+00, !- Coefficient5 y**2 -1.164290E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.247308E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 11.42, !- Minimum Value of x 26.45, !- Maximum Value of x 0.10, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1403 kW (399 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD, !- Name 1403100, !- Reference Capacity {W} 7.09, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 21.78, !- Reference Leaving Condenser Water Temperature {C} 0.03426, !- Reference Chilled Water Flow Rate {m3/s} 0.04252, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD CAPFT, !- Name 8.573696E-01, !- Coefficient1 Constant -3.077045E-02, !- Coefficient2 x -2.171254E-03, !- Coefficient3 x**2 2.296255E-02, !- Coefficient4 y -1.067689E-03, !- Coefficient5 y**2 3.125156E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 21.77, !- Minimum Value of y 33.09; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD EIRFT, !- Name 1.172049E+00, !- Coefficient1 Constant -1.768334E-02, !- Coefficient2 x 3.356460E-04, !- Coefficient3 x**2 -1.485826E-02, !- Coefficient4 y 6.930197E-04, !- Coefficient5 y**2 -5.461447E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 21.77, !- Minimum Value of y 33.09; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD EIRFPLR, !- Name 1.386665E-01, !- Coefficient1 Constant 4.836823E-03, !- Coefficient2 x -5.406708E-05, !- Coefficient3 x**2 -4.609915E-01, !- Coefficient4 y 2.214035E+00, !- Coefficient5 y**2 -1.925694E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -9.302446E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.09, !- Minimum Value of x 31.70, !- Maximum Value of x 0.17, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YT 1403kW/6.94COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1403 kW (399 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1403kW/6.94COP/VSD, !- Name 1403100, !- Reference Capacity {W} 6.94, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 31.50, !- Reference Leaving Condenser Water Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.05047, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1403kW/6.94COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1403kW/6.94COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1403kW/6.94COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.13, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1403kW/6.94COP/VSD CAPFT, !- Name -1.721714E+00, !- Coefficient1 Constant 8.594308E-02, !- Coefficient2 x -1.220844E-02, !- Coefficient3 x**2 2.037396E-01, !- Coefficient4 y -4.654718E-03, !- Coefficient5 y**2 4.701301E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.33, !- Minimum Value of y 36.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1403kW/6.94COP/VSD EIRFT, !- Name 5.348381E-01, !- Coefficient1 Constant -1.779962E-02, !- Coefficient2 x -4.925343E-03, !- Coefficient3 x**2 1.066975E-02, !- Coefficient4 y 9.573974E-05, !- Coefficient5 y**2 1.717894E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.33, !- Minimum Value of y 36.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1403kW/6.94COP/VSD EIRFPLR, !- Name 1.005500E+00, !- Coefficient1 Constant 3.906974E-02, !- Coefficient2 x -7.721440E-06, !- Coefficient3 x**2 -5.794857E+00, !- Coefficient4 y 9.282464E+00, !- Coefficient5 y**2 -3.755116E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -3.524493E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 11.01, !- Minimum Value of x 28.14, !- Maximum Value of x 0.10, !- Minimum Value of y 1.13; !- Maximum Value of y ! ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1407 kW (400 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD, !- Name 1406600, !- Reference Capacity {W} 7.14, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 28.96, !- Reference Leaving Condenser Water Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.07571, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.07, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD CAPFT, !- Name 1.098635E-01, !- Coefficient1 Constant -4.154795E-02, !- Coefficient2 x -6.348039E-03, !- Coefficient3 x**2 8.801570E-02, !- Coefficient4 y -2.631387E-03, !- Coefficient5 y**2 5.846073E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.66, !- Minimum Value of y 34.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD EIRFT, !- Name 6.391346E-01, !- Coefficient1 Constant 5.159383E-02, !- Coefficient2 x -5.750293E-03, !- Coefficient3 x**2 -9.196660E-03, !- Coefficient4 y 7.380570E-04, !- Coefficient5 y**2 -4.665422E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.66, !- Minimum Value of y 34.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD EIRFPLR, !- Name 2.754461E-01, !- Coefficient1 Constant 6.701607E-02, !- Coefficient2 x -8.579222E-05, !- Coefficient3 x**2 -4.299994E+00, !- Coefficient4 y 7.901098E+00, !- Coefficient5 y**2 -6.298243E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.924081E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 15.06, !- Minimum Value of x 28.39, !- Maximum Value of x 0.30, !- Minimum Value of y 1.07; !- Maximum Value of y ! ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 1407 kW (400 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes, !- Name 1406600, !- Reference Capacity {W} 6.60, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 29.45, !- Reference Leaving Condenser Water Temperature {C} 0.04038, !- Reference Chilled Water Flow Rate {m3/s} 0.05804, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes CAPFT, !- Name 4.857520E-01, !- Coefficient1 Constant -1.139327E-01, !- Coefficient2 x -1.036160E-02, !- Coefficient3 x**2 1.146315E-01, !- Coefficient4 y -4.547626E-03, !- Coefficient5 y**2 1.263077E-02, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 21.90, !- Minimum Value of y 32.26; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes EIRFT, !- Name 9.392120E-01, !- Coefficient1 Constant 3.430098E-02, !- Coefficient2 x -5.178425E-03, !- Coefficient3 x**2 -2.274002E-02, !- Coefficient4 y 6.827442E-04, !- Coefficient5 y**2 7.649464E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 21.90, !- Minimum Value of y 32.26; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes EIRFPLR, !- Name -6.446736E-01, !- Coefficient1 Constant 5.352860E-02, !- Coefficient2 x 1.582353E-06, !- Coefficient3 x**2 2.669373E-01, !- Coefficient4 y 1.497456E+00, !- Coefficient5 y**2 -5.364380E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.183319E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.30, !- Minimum Value of x 30.58, !- Maximum Value of x 0.10, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1407 kW (400 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD, !- Name 1406600, !- Reference Capacity {W} 6.04, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 34.63, !- Reference Leaving Condenser Water Temperature {C} 0.06057, !- Reference Chilled Water Flow Rate {m3/s} 0.07571, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD CAPFT, !- Name 9.006457E-01, !- Coefficient1 Constant -1.139681E-02, !- Coefficient2 x -1.480623E-03, !- Coefficient3 x**2 2.770949E-02, !- Coefficient4 y -9.617215E-04, !- Coefficient5 y**2 1.812986E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 10.00, !- Maximum Value of x 18.11, !- Minimum Value of y 37.42; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD EIRFT, !- Name 1.174615E+00, !- Coefficient1 Constant -1.237741E-02, !- Coefficient2 x -1.147159E-03, !- Coefficient3 x**2 -2.996332E-02, !- Coefficient4 y 8.901939E-04, !- Coefficient5 y**2 -2.302077E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 10.00, !- Maximum Value of x 18.11, !- Minimum Value of y 37.42; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD EIRFPLR, !- Name -5.839828E-01, !- Coefficient1 Constant 4.640814E-02, !- Coefficient2 x -7.366007E-05, !- Coefficient3 x**2 -1.926398E-01, !- Coefficient4 y 2.597682E+00, !- Coefficient5 y**2 -4.268655E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -8.666390E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 19.35, !- Minimum Value of x 34.63, !- Maximum Value of x 0.20, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1410 kW (401 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD, !- Name 1410100, !- Reference Capacity {W} 8.54, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 19.21, !- Reference Leaving Condenser Water Temperature {C} 0.04, !- Reference Chilled Water Flow Rate {m3/s} 0.05861, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD CAPFT, !- Name 9.053779E-01, !- Coefficient1 Constant -1.615047E-02, !- Coefficient2 x -1.175290E-03, !- Coefficient3 x**2 1.318125E-02, !- Coefficient4 y -5.919239E-04, !- Coefficient5 y**2 1.756836E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 19.05, !- Minimum Value of y 30.63; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD EIRFT, !- Name 1.074067E+00, !- Coefficient1 Constant -6.702565E-02, !- Coefficient2 x 3.043272E-04, !- Coefficient3 x**2 6.055739E-03, !- Coefficient4 y 4.615039E-04, !- Coefficient5 y**2 3.375766E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 19.05, !- Minimum Value of y 30.63; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD EIRFPLR, !- Name -6.984658E-02, !- Coefficient1 Constant 2.103714E-02, !- Coefficient2 x 5.767453E-05, !- Coefficient3 x**2 5.267406E-01, !- Coefficient4 y 6.390076E-01, !- Coefficient5 y**2 -2.389231E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -6.097179E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.00, !- Minimum Value of x 30.01, !- Maximum Value of x 0.18, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1442 kW (410 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD, !- Name 1441800, !- Reference Capacity {W} 6.61, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 31.76, !- Reference Leaving Condenser Water Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.05047, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD CAPFT, !- Name -2.660651E-01, !- Coefficient1 Constant -2.114972E-02, !- Coefficient2 x -3.928472E-04, !- Coefficient3 x**2 9.573910E-02, !- Coefficient4 y -2.015949E-03, !- Coefficient5 y**2 2.030045E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 19.72, !- Minimum Value of y 41.41; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD EIRFT, !- Name 6.807134E-01, !- Coefficient1 Constant -2.285082E-02, !- Coefficient2 x 8.153057E-04, !- Coefficient3 x**2 9.280487E-04, !- Coefficient4 y 4.950540E-04, !- Coefficient5 y**2 -6.106817E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 19.72, !- Minimum Value of y 41.41; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD EIRFPLR, !- Name -5.842314E-01, !- Coefficient1 Constant 5.001539E-02, !- Coefficient2 x -1.157444E-04, !- Coefficient3 x**2 -3.287848E-03, !- Coefficient4 y 1.916917E+00, !- Coefficient5 y**2 -4.340928E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.222738E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.21, !- Minimum Value of x 30.50, !- Maximum Value of x 0.10, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller York YT 1459kW/6.40COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1459 kW (415 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1459kW/6.40COP/VSD, !- Name 1459400, !- Reference Capacity {W} 6.40, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 31.89, !- Reference Leaving Condenser Water Temperature {C} 0.05047, !- Reference Chilled Water Flow Rate {m3/s} 0.05047, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1459kW/6.40COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1459kW/6.40COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1459kW/6.40COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.17, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1459kW/6.40COP/VSD CAPFT, !- Name -1.194034E+00, !- Coefficient1 Constant 2.466392E-01, !- Coefficient2 x -1.770803E-02, !- Coefficient3 x**2 1.203228E-01, !- Coefficient4 y -2.570051E-03, !- Coefficient5 y**2 8.497187E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.15, !- Minimum Value of y 37.17; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1459kW/6.40COP/VSD EIRFT, !- Name -6.559788E-02, !- Coefficient1 Constant 4.189764E-02, !- Coefficient2 x -9.367876E-03, !- Coefficient3 x**2 4.551296E-02, !- Coefficient4 y -5.411967E-04, !- Coefficient5 y**2 1.453585E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.15, !- Minimum Value of y 37.17; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1459kW/6.40COP/VSD EIRFPLR, !- Name -1.614787E-01, !- Coefficient1 Constant 6.417258E-02, !- Coefficient2 x 1.317124E-05, !- Coefficient3 x**2 -2.149029E+00, !- Coefficient4 y 4.405653E+00, !- Coefficient5 y**2 -6.621165E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.055839E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 11.01, !- Minimum Value of x 28.17, !- Maximum Value of x 0.10, !- Minimum Value of y 1.17; !- Maximum Value of y ! ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1484 kW (422 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD, !- Name 1484000, !- Reference Capacity {W} 9.96, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 17.08, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09085, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.24, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.24, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD CAPFT, !- Name -9.759100E-01, !- Coefficient1 Constant -1.446866E-01, !- Coefficient2 x -4.694254E-03, !- Coefficient3 x**2 1.963005E-01, !- Coefficient4 y -4.543768E-03, !- Coefficient5 y**2 8.998114E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.08, !- Minimum Value of y 35.97; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD EIRFT, !- Name -6.183288E-01, !- Coefficient1 Constant -1.151565E-01, !- Coefficient2 x -1.663662E-04, !- Coefficient3 x**2 1.539757E-01, !- Coefficient4 y -2.390058E-03, !- Coefficient5 y**2 2.818373E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.08, !- Minimum Value of y 35.97; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD EIRFPLR, !- Name 2.203029E-01, !- Coefficient1 Constant 9.195177E-02, !- Coefficient2 x 1.943558E-05, !- Coefficient3 x**2 -5.815422E+00, !- Coefficient4 y 9.366237E+00, !- Coefficient5 y**2 -9.299721E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.757689E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.58, !- Minimum Value of x 32.83, !- Maximum Value of x 0.24, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller York YT 1495kW/7.51COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1495 kW (425 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1495kW/7.51COP/VSD, !- Name 1494500, !- Reference Capacity {W} 7.51, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 29.92, !- Reference Leaving Condenser Water Temperature {C} 0.0429, !- Reference Chilled Water Flow Rate {m3/s} 0.06719, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1495kW/7.51COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1495kW/7.51COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1495kW/7.51COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.11, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.11, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1495kW/7.51COP/VSD CAPFT, !- Name 6.015487E-01, !- Coefficient1 Constant -1.630120E-01, !- Coefficient2 x 9.951930E-03, !- Coefficient3 x**2 7.452875E-02, !- Coefficient4 y -1.608224E-03, !- Coefficient5 y**2 2.001891E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 18.69, !- Minimum Value of y 41.38; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1495kW/7.51COP/VSD EIRFT, !- Name 1.954138E-01, !- Coefficient1 Constant -1.627980E-01, !- Coefficient2 x 5.924232E-03, !- Coefficient3 x**2 8.194832E-02, !- Coefficient4 y -8.723337E-04, !- Coefficient5 y**2 7.443855E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 18.69, !- Minimum Value of y 41.38; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1495kW/7.51COP/VSD EIRFPLR, !- Name 6.377828E-01, !- Coefficient1 Constant -3.620643E-02, !- Coefficient2 x -1.187858E-04, !- Coefficient3 x**2 5.832958E-01, !- Coefficient4 y -9.230655E-01, !- Coefficient5 y**2 4.307256E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 6.079021E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.42, !- Minimum Value of x 29.92, !- Maximum Value of x 0.11, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes ! Manufacturer = McQuay, Model Line = WSC ! Reference Capacity = 1519 kW (432 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes, !- Name 1519200, !- Reference Capacity {W} 7.10, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 31.76, !- Reference Leaving Condenser Water Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.08139, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes CAPFT, !- Name 1.244930E+00, !- Coefficient1 Constant -3.988254E-02, !- Coefficient2 x -8.293893E-03, !- Coefficient3 x**2 3.053704E-02, !- Coefficient4 y -2.899547E-03, !- Coefficient5 y**2 9.784227E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.71, !- Minimum Value of y 33.53; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes EIRFT, !- Name 1.087821E+00, !- Coefficient1 Constant -2.763242E-02, !- Coefficient2 x -3.692617E-03, !- Coefficient3 x**2 -1.419848E-02, !- Coefficient4 y 6.903140E-05, !- Coefficient5 y**2 2.920296E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.71, !- Minimum Value of y 33.53; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes EIRFPLR, !- Name 4.209093E-01, !- Coefficient1 Constant -1.860468E-02, !- Coefficient2 x 1.580518E-05, !- Coefficient3 x**2 8.654910E-01, !- Coefficient4 y -6.538795E-01, !- Coefficient5 y**2 1.786849E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 3.759658E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.24, !- Minimum Value of x 31.74, !- Maximum Value of x 0.10, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1558 kW (443 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60Hz ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD, !- Name 1557800, !- Reference Capacity {W} 5.81, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 29.61, !- Reference Leaving Condenser Water Temperature {C} 0.03785, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD CAPFT, !- Name 1.062937E+00, !- Coefficient1 Constant 1.795402E-02, !- Coefficient2 x -1.393291E-03, !- Coefficient3 x**2 -9.669825E-04, !- Coefficient4 y -2.580121E-04, !- Coefficient5 y**2 7.734796E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.93, !- Minimum Value of y 32.69; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD EIRFT, !- Name 1.228621E+00, !- Coefficient1 Constant -2.576180E-02, !- Coefficient2 x 5.933105E-04, !- Coefficient3 x**2 -2.005035E-02, !- Coefficient4 y 6.691169E-04, !- Coefficient5 y**2 -5.915039E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.93, !- Minimum Value of y 32.69; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD EIRFPLR, !- Name 3.269754E-01, !- Coefficient1 Constant -2.384434E-02, !- Coefficient2 x 1.204600E-06, !- Coefficient3 x**2 3.858219E-01, !- Coefficient4 y 1.457104E-01, !- Coefficient5 y**2 2.369999E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.441457E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.50, !- Minimum Value of x 30.50, !- Maximum Value of x 0.19, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1586 kW (451 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = N/A ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD, !- Name 1586000, !- Reference Capacity {W} 5.53, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 36.26, !- Reference Leaving Condenser Water Temperature {C} 0.03388, !- Reference Chilled Water Flow Rate {m3/s} 0.04669, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD CAPFT, !- Name 1.132174E+00, !- Coefficient1 Constant 8.236001E-04, !- Coefficient2 x -8.207587E-04, !- Coefficient3 x**2 2.967657E-03, !- Coefficient4 y -3.898313E-04, !- Coefficient5 y**2 1.015830E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 23.36, !- Minimum Value of y 36.72; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD EIRFT, !- Name 1.223690E+00, !- Coefficient1 Constant -3.668987E-02, !- Coefficient2 x 4.038915E-04, !- Coefficient3 x**2 -1.595573E-02, !- Coefficient4 y 5.080640E-04, !- Coefficient5 y**2 -7.276256E-05, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 23.36, !- Minimum Value of y 36.72; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD EIRFPLR, !- Name 3.381660E-01, !- Coefficient1 Constant -2.323866E-02, !- Coefficient2 x -7.810564E-06, !- Coefficient3 x**2 1.017389E+00, !- Coefficient4 y -8.328919E-01, !- Coefficient5 y**2 2.371783E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 4.701559E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.58, !- Minimum Value of x 35.67, !- Maximum Value of x 0.19, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1635 kW (465 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes, !- Name 1635200, !- Reference Capacity {W} 7.47, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 19.47, !- Reference Leaving Condenser Water Temperature {C} 0.04416, !- Reference Chilled Water Flow Rate {m3/s} 0.06624, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.08, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.08, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes CAPFT, !- Name 8.307757E-01, !- Coefficient1 Constant -2.169411E-02, !- Coefficient2 x -3.184578E-03, !- Coefficient3 x**2 2.945840E-02, !- Coefficient4 y -1.412831E-03, !- Coefficient5 y**2 3.405965E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 19.47, !- Minimum Value of y 34.79; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes EIRFT, !- Name 1.029659E+00, !- Coefficient1 Constant -6.966329E-02, !- Coefficient2 x 2.674887E-03, !- Coefficient3 x**2 9.677160E-04, !- Coefficient4 y 5.197288E-04, !- Coefficient5 y**2 1.456235E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 19.47, !- Minimum Value of y 34.79; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes EIRFPLR, !- Name -6.247932E-02, !- Coefficient1 Constant 1.538879E-02, !- Coefficient2 x 4.295421E-05, !- Coefficient3 x**2 6.945495E-01, !- Coefficient4 y 2.544881E-01, !- Coefficient5 y**2 -1.740972E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.367965E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.28, !- Minimum Value of x 31.90, !- Maximum Value of x 0.08, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1635 kW (465 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes, !- Name 1635200, !- Reference Capacity {W} 6.36, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 35.66, !- Reference Leaving Condenser Water Temperature {C} 0.03432, !- Reference Chilled Water Flow Rate {m3/s} 0.05035, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes CAPFT, !- Name 3.092875E-01, !- Coefficient1 Constant -3.293511E-02, !- Coefficient2 x -4.782933E-03, !- Coefficient3 x**2 6.860171E-02, !- Coefficient4 y -2.017588E-03, !- Coefficient5 y**2 4.670722E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 20.44, !- Minimum Value of y 36.54; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes EIRFT, !- Name 6.499856E-01, !- Coefficient1 Constant -6.235681E-03, !- Coefficient2 x -2.219743E-04, !- Coefficient3 x**2 8.417414E-03, !- Coefficient4 y 2.314691E-04, !- Coefficient5 y**2 -5.679479E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 20.44, !- Minimum Value of y 36.54; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes EIRFPLR, !- Name 4.206254E-01, !- Coefficient1 Constant -1.310337E-03, !- Coefficient2 x 8.796454E-05, !- Coefficient3 x**2 6.600709E-02, !- Coefficient4 y 4.642310E-01, !- Coefficient5 y**2 -3.720394E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.189466E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.54, !- Minimum Value of x 34.96, !- Maximum Value of x 0.18, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1656 kW (471 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD, !- Name 1656300, !- Reference Capacity {W} 8.24, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 19.83, !- Reference Leaving Condenser Water Temperature {C} 0.04322, !- Reference Chilled Water Flow Rate {m3/s} 0.06296, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD CAPFT, !- Name 3.653257E-01, !- Coefficient1 Constant -6.139152E-02, !- Coefficient2 x -2.815890E-03, !- Coefficient3 x**2 7.447010E-02, !- Coefficient4 y -2.488202E-03, !- Coefficient5 y**2 5.049502E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.63, !- Minimum Value of y 31.21; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD EIRFT, !- Name 2.129183E-01, !- Coefficient1 Constant -9.725092E-02, !- Coefficient2 x -2.082833E-03, !- Coefficient3 x**2 8.782361E-02, !- Coefficient4 y -1.867589E-03, !- Coefficient5 y**2 3.572892E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.63, !- Minimum Value of y 31.21; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD EIRFPLR, !- Name 1.682264E-01, !- Coefficient1 Constant 5.313899E-02, !- Coefficient2 x 1.193363E-04, !- Coefficient3 x**2 -2.621319E+00, !- Coefficient4 y 4.728237E+00, !- Coefficient5 y**2 -5.785047E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.229602E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.02, !- Minimum Value of x 30.00, !- Maximum Value of x 0.17, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller York YT 1663kW/9.34COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1663 kW (473 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1663kW/9.34COP/Vanes, !- Name 1663300, !- Reference Capacity {W} 9.34, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 18.45, !- Reference Leaving Condenser Water Temperature {C} 0.04139, !- Reference Chilled Water Flow Rate {m3/s} 0.0776, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1663kW/9.34COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1663kW/9.34COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1663kW/9.34COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1663kW/9.34COP/Vanes CAPFT, !- Name 6.972683E-01, !- Coefficient1 Constant -9.692349E-02, !- Coefficient2 x 4.846738E-03, !- Coefficient3 x**2 5.523481E-02, !- Coefficient4 y -1.995272E-03, !- Coefficient5 y**2 3.533436E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 18.45, !- Minimum Value of y 34.43; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1663kW/9.34COP/Vanes EIRFT, !- Name 9.477120E-01, !- Coefficient1 Constant -3.913396E-02, !- Coefficient2 x 2.408597E-03, !- Coefficient3 x**2 6.703909E-03, !- Coefficient4 y 5.744537E-04, !- Coefficient5 y**2 -1.084620E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 18.45, !- Minimum Value of y 34.43; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1663kW/9.34COP/Vanes EIRFPLR, !- Name 3.131373E-01, !- Coefficient1 Constant -3.438844E-03, !- Coefficient2 x -2.715303E-06, !- Coefficient3 x**2 1.918294E-01, !- Coefficient4 y 7.024552E-01, !- Coefficient5 y**2 3.301543E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.040731E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.82, !- Minimum Value of x 28.89, !- Maximum Value of x 0.17, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes ! Manufacturer = Carrier, Model Line = 19XL ! Reference Capacity = 1674 kW (476 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes, !- Name 1673900, !- Reference Capacity {W} 7.89, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 17.74, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09085, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.32, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.32, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes CAPFT, !- Name -1.604710E-01, !- Coefficient1 Constant -5.170996E-02, !- Coefficient2 x -1.502523E-03, !- Coefficient3 x**2 1.078170E-01, !- Coefficient4 y -2.402469E-03, !- Coefficient5 y**2 3.063152E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.74, !- Minimum Value of y 34.74; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes EIRFT, !- Name 1.038212E+00, !- Coefficient1 Constant -5.515980E-02, !- Coefficient2 x 3.732790E-03, !- Coefficient3 x**2 2.569418E-03, !- Coefficient4 y 5.139774E-04, !- Coefficient5 y**2 -7.883225E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.74, !- Minimum Value of y 34.74; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes EIRFPLR, !- Name 6.276299E-01, !- Coefficient1 Constant -2.633919E-02, !- Coefficient2 x 5.269229E-05, !- Coefficient3 x**2 1.008569E+00, !- Coefficient4 y -1.063131E+00, !- Coefficient5 y**2 2.353572E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 4.628347E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 18.61, !- Minimum Value of x 32.12, !- Maximum Value of x 0.32, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 1681 kW (478 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes, !- Name 1680900, !- Reference Capacity {W} 6.59, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 32.90, !- Reference Leaving Condenser Water Temperature {C} 0.04366, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes CAPFT, !- Name 6.849319E-01, !- Coefficient1 Constant -9.745913E-02, !- Coefficient2 x -6.516486E-03, !- Coefficient3 x**2 4.595970E-02, !- Coefficient4 y -1.596854E-03, !- Coefficient5 y**2 7.102706E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 27.96, !- Minimum Value of y 34.43; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes EIRFT, !- Name 5.325528E-01, !- Coefficient1 Constant 2.791268E-02, !- Coefficient2 x 1.983583E-03, !- Coefficient3 x**2 -2.742380E-03, !- Coefficient4 y 7.801907E-04, !- Coefficient5 y**2 -2.694731E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 27.96, !- Minimum Value of y 34.43; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes EIRFPLR, !- Name -1.598454E+00, !- Coefficient1 Constant 9.989791E-02, !- Coefficient2 x -1.680617E-04, !- Coefficient3 x**2 1.430978E+00, !- Coefficient4 y 5.318671E-01, !- Coefficient5 y**2 -8.914051E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 4.647834E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 19.34, !- Minimum Value of x 32.01, !- Maximum Value of x 0.10, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1723 kW (490 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD, !- Name 1723100, !- Reference Capacity {W} 8.32, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 19.44, !- Reference Leaving Condenser Water Temperature {C} 0.04757, !- Reference Chilled Water Flow Rate {m3/s} 0.06934, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD CAPFT, !- Name 1.239005E-01, !- Coefficient1 Constant -7.123944E-02, !- Coefficient2 x -2.643936E-03, !- Coefficient3 x**2 9.396468E-02, !- Coefficient4 y -2.643737E-03, !- Coefficient5 y**2 4.923920E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.07, !- Minimum Value of y 31.40; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD EIRFT, !- Name -1.372893E-01, !- Coefficient1 Constant -1.137042E-01, !- Coefficient2 x -3.395214E-03, !- Coefficient3 x**2 1.210097E-01, !- Coefficient4 y -2.615543E-03, !- Coefficient5 y**2 4.943923E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.07, !- Minimum Value of y 31.40; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD EIRFPLR, !- Name 1.363743E+00, !- Coefficient1 Constant -2.534882E-02, !- Coefficient2 x 7.213176E-05, !- Coefficient3 x**2 -3.644022E+00, !- Coefficient4 y 5.935760E+00, !- Coefficient5 y**2 2.202104E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.617944E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.01, !- Minimum Value of x 30.01, !- Maximum Value of x 0.18, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1727 kW (491 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes, !- Name 1726600, !- Reference Capacity {W} 9.04, !- Reference COP {W/W} 7.78, !- Reference Leaving Chilled Water Temperature {C} 19.16, !- Reference Leaving Condenser Water Temperature {C} 0.03912, !- Reference Chilled Water Flow Rate {m3/s} 0.07192, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes CAPFT, !- Name 2.574689E-01, !- Coefficient1 Constant 2.272600E-03, !- Coefficient2 x -5.815624E-03, !- Coefficient3 x**2 6.540193E-02, !- Coefficient4 y -1.958828E-03, !- Coefficient5 y**2 3.701057E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.94, !- Minimum Value of y 35.13; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes EIRFT, !- Name 1.247058E+00, !- Coefficient1 Constant -1.353289E-02, !- Coefficient2 x -1.160647E-03, !- Coefficient3 x**2 -2.086541E-02, !- Coefficient4 y 9.395685E-04, !- Coefficient5 y**2 -2.989847E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.94, !- Minimum Value of y 35.13; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes EIRFPLR, !- Name 1.552467E-02, !- Coefficient1 Constant 1.482533E-02, !- Coefficient2 x -2.165341E-05, !- Coefficient3 x**2 9.371381E-01, !- Coefficient4 y -5.717707E-01, !- Coefficient5 y**2 -1.368813E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 6.047782E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.75, !- Minimum Value of x 28.29, !- Maximum Value of x 0.17, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes ! Manufacturer = McQuay, Model Line = WSC ! Reference Capacity = 1751 kW (498 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes, !- Name 1751300, !- Reference Capacity {W} 6.73, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 31.82, !- Reference Leaving Condenser Water Temperature {C} 0.04145, !- Reference Chilled Water Flow Rate {m3/s} 0.09337, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.07, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes CAPFT, !- Name 6.997155E-01, !- Coefficient1 Constant 1.013018E-01, !- Coefficient2 x -5.069597E-03, !- Coefficient3 x**2 1.512092E-02, !- Coefficient4 y -9.198614E-04, !- Coefficient5 y**2 1.134806E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.25, !- Minimum Value of y 32.66; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes EIRFT, !- Name 9.968396E-01, !- Coefficient1 Constant 2.738711E-02, !- Coefficient2 x -1.295424E-03, !- Coefficient3 x**2 -2.546976E-02, !- Coefficient4 y 9.706321E-04, !- Coefficient5 y**2 -9.771396E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.25, !- Minimum Value of y 32.66; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes EIRFPLR, !- Name -4.199061E-01, !- Coefficient1 Constant 3.348162E-02, !- Coefficient2 x -3.463872E-06, !- Coefficient3 x**2 1.370150E+00, !- Coefficient4 y -1.116699E+00, !- Coefficient5 y**2 -3.393707E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.177655E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.29, !- Minimum Value of x 32.07, !- Maximum Value of x 0.10, !- Minimum Value of y 1.07; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 208V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 5.96, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 32.23, !- Reference Leaving Condenser Water Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes CAPFT, !- Name 1.152910E+00, !- Coefficient1 Constant -3.989989E-03, !- Coefficient2 x -3.188662E-03, !- Coefficient3 x**2 -1.713324E-02, !- Coefficient4 y 1.013638E-04, !- Coefficient5 y**2 2.380003E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.13, !- Minimum Value of y 32.40; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes EIRFT, !- Name 5.175819E-02, !- Coefficient1 Constant -9.767577E-02, !- Coefficient2 x 4.582364E-03, !- Coefficient3 x**2 6.527440E-02, !- Coefficient4 y -7.594482E-04, !- Coefficient5 y**2 1.621435E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.13, !- Minimum Value of y 32.40; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes EIRFPLR, !- Name -3.445966E+00, !- Coefficient1 Constant 3.643598E-01, !- Coefficient2 x -1.697759E-04, !- Coefficient3 x**2 -2.909905E+00, !- Coefficient4 y 6.045776E+00, !- Coefficient5 y**2 -3.553254E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.192526E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.97, !- Minimum Value of x 32.23, !- Maximum Value of x 0.20, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YT 1758kW/5.76COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60Hz ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1758kW/5.76COP/VSD, !- Name 1758300, !- Reference Capacity {W} 5.76, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 32.27, !- Reference Leaving Condenser Water Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1758kW/5.76COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1758kW/5.76COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1758kW/5.76COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1758kW/5.76COP/VSD CAPFT, !- Name 1.960842E-01, !- Coefficient1 Constant 1.462778E-01, !- Coefficient2 x -4.568082E-03, !- Coefficient3 x**2 3.185311E-02, !- Coefficient4 y -6.290125E-04, !- Coefficient5 y**2 -1.279459E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.51, !- Maximum Value of x 21.27, !- Minimum Value of y 32.81; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1758kW/5.76COP/VSD EIRFT, !- Name 9.622331E-01, !- Coefficient1 Constant 8.325124E-02, !- Coefficient2 x -2.403189E-03, !- Coefficient3 x**2 -3.668907E-02, !- Coefficient4 y 1.323874E-03, !- Coefficient5 y**2 -2.828319E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.51, !- Maximum Value of x 21.27, !- Minimum Value of y 32.81; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1758kW/5.76COP/VSD EIRFPLR, !- Name 4.914420E-01, !- Coefficient1 Constant -3.736264E-02, !- Coefficient2 x -1.708310E-04, !- Coefficient3 x**2 7.127945E-01, !- Coefficient4 y -1.838011E-01, !- Coefficient5 y**2 4.633977E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.370201E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.54, !- Minimum Value of x 32.27, !- Maximum Value of x 0.10, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YT 1758kW/6.26COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 230V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1758kW/6.26COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 6.26, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 32.18, !- Reference Leaving Condenser Water Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1758kW/6.26COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1758kW/6.26COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1758kW/6.26COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.16, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1758kW/6.26COP/Vanes CAPFT, !- Name 4.841919E-01, !- Coefficient1 Constant -2.437152E-02, !- Coefficient2 x 3.244522E-03, !- Coefficient3 x**2 5.590357E-02, !- Coefficient4 y -1.302819E-03, !- Coefficient5 y**2 9.257097E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 21.48, !- Minimum Value of y 33.76; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1758kW/6.26COP/Vanes EIRFT, !- Name 1.729452E-01, !- Coefficient1 Constant 9.227136E-02, !- Coefficient2 x -5.580943E-03, !- Coefficient3 x**2 1.946191E-02, !- Coefficient4 y 3.155080E-05, !- Coefficient5 y**2 -7.904242E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 21.48, !- Minimum Value of y 33.76; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1758kW/6.26COP/Vanes EIRFPLR, !- Name 9.471258E-01, !- Coefficient1 Constant -4.669457E-02, !- Coefficient2 x -4.461248E-04, !- Coefficient3 x**2 5.587776E-02, !- Coefficient4 y 6.578054E-01, !- Coefficient5 y**2 7.103286E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -9.855688E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.72, !- Minimum Value of x 32.18, !- Maximum Value of x 0.10, !- Minimum Value of y 1.16; !- Maximum Value of y ! ReformEIRChiller York YT 1758kW/5.96COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 230V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1758kW/5.96COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 5.96, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 32.23, !- Reference Leaving Condenser Water Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1758kW/5.96COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1758kW/5.96COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1758kW/5.96COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1758kW/5.96COP/Vanes CAPFT, !- Name 8.075668E-01, !- Coefficient1 Constant 5.287917E-02, !- Coefficient2 x -4.493793E-04, !- Coefficient3 x**2 7.036068E-03, !- Coefficient4 y -3.536822E-04, !- Coefficient5 y**2 3.731438E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 21.29, !- Minimum Value of y 33.53; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1758kW/5.96COP/Vanes EIRFT, !- Name 2.593808E-01, !- Coefficient1 Constant -1.873181E-03, !- Coefficient2 x -4.808688E-04, !- Coefficient3 x**2 3.822020E-02, !- Coefficient4 y -3.813018E-04, !- Coefficient5 y**2 -2.995903E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 21.29, !- Minimum Value of y 33.53; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1758kW/5.96COP/Vanes EIRFPLR, !- Name 1.303414E-01, !- Coefficient1 Constant 1.618347E-02, !- Coefficient2 x -7.157278E-05, !- Coefficient3 x**2 -1.337481E-01, !- Coefficient4 y 1.186910E+00, !- Coefficient5 y**2 -1.240299E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.328976E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.72, !- Minimum Value of x 32.23, !- Maximum Value of x 0.10, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes ! Manufacturer = Trane, Model Line = CVHE ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 5.96, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 34.63, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09464, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes CAPFT, !- Name -3.784203E-01, !- Coefficient1 Constant -8.333229E-02, !- Coefficient2 x -8.509675E-03, !- Coefficient3 x**2 1.031937E-01, !- Coefficient4 y -2.432261E-03, !- Coefficient5 y**2 7.065530E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 28.68, !- Minimum Value of y 40.15; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes EIRFT, !- Name 1.583438E+00, !- Coefficient1 Constant -3.412919E-03, !- Coefficient2 x 4.476231E-03, !- Coefficient3 x**2 -5.243024E-02, !- Coefficient4 y 1.295102E-03, !- Coefficient5 y**2 -2.210725E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 28.68, !- Minimum Value of y 40.15; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes EIRFPLR, !- Name 1.466664E+00, !- Coefficient1 Constant -4.222011E-02, !- Coefficient2 x -1.153513E-04, !- Coefficient3 x**2 -7.738226E-02, !- Coefficient4 y -9.896333E-01, !- Coefficient5 y**2 5.014539E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 4.671251E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 30.56, !- Minimum Value of x 34.63, !- Maximum Value of x 0.20, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller York YT 1758kW/6.28COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1758kW/6.28COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 6.28, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 34.60, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09464, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1758kW/6.28COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1758kW/6.28COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1758kW/6.28COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1758kW/6.28COP/Vanes CAPFT, !- Name 5.062633E-01, !- Coefficient1 Constant -9.373882E-03, !- Coefficient2 x -2.822764E-03, !- Coefficient3 x**2 4.202164E-02, !- Coefficient4 y -1.092132E-03, !- Coefficient5 y**2 2.074549E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.46, !- Minimum Value of y 39.72; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1758kW/6.28COP/Vanes EIRFT, !- Name 5.699849E-01, !- Coefficient1 Constant -9.813327E-03, !- Coefficient2 x 4.223116E-04, !- Coefficient3 x**2 4.842283E-03, !- Coefficient4 y 4.078201E-04, !- Coefficient5 y**2 -7.615896E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.46, !- Minimum Value of y 39.72; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1758kW/6.28COP/Vanes EIRFPLR, !- Name 2.911331E-01, !- Coefficient1 Constant -4.317969E-03, !- Coefficient2 x 1.448369E-05, !- Coefficient3 x**2 6.226793E-01, !- Coefficient4 y 7.992053E-02, !- Coefficient5 y**2 3.393326E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.919540E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.33, !- Minimum Value of x 34.60, !- Maximum Value of x 0.20, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60Hz ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD, !- Name 1758300, !- Reference Capacity {W} 5.86, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 31.15, !- Reference Leaving Condenser Water Temperature {C} 0.06303, !- Reference Chilled Water Flow Rate {m3/s} 0.07337, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD CAPFT, !- Name 9.528317E-02, !- Coefficient1 Constant -4.119086E-02, !- Coefficient2 x -3.854298E-03, !- Coefficient3 x**2 7.698517E-02, !- Coefficient4 y -1.945011E-03, !- Coefficient5 y**2 4.285126E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 17.86, !- Minimum Value of y 31.43; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD EIRFT, !- Name -6.333861E-02, !- Coefficient1 Constant -5.533069E-02, !- Coefficient2 x -4.591740E-03, !- Coefficient3 x**2 7.468402E-02, !- Coefficient4 y -1.455300E-03, !- Coefficient5 y**2 3.506040E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 17.86, !- Minimum Value of y 31.43; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD EIRFPLR, !- Name 1.251509E+00, !- Coefficient1 Constant -9.433150E-02, !- Coefficient2 x -2.849753E-05, !- Coefficient3 x**2 8.544238E-01, !- Coefficient4 y -1.491994E+00, !- Coefficient5 y**2 9.568956E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 3.698862E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.63, !- Minimum Value of x 31.15, !- Maximum Value of x 0.20, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 208V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD, !- Name 1758300, !- Reference Capacity {W} 6.46, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 32.14, !- Reference Leaving Condenser Water Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD CAPFT, !- Name 1.155538E+00, !- Coefficient1 Constant -6.017270E-03, !- Coefficient2 x -3.052085E-03, !- Coefficient3 x**2 -1.615198E-02, !- Coefficient4 y 1.178682E-04, !- Coefficient5 y**2 2.213641E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.10, !- Minimum Value of y 32.22; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD EIRFT, !- Name -2.601408E-01, !- Coefficient1 Constant 2.870346E-02, !- Coefficient2 x 2.635595E-04, !- Coefficient3 x**2 4.992457E-02, !- Coefficient4 y -1.859076E-04, !- Coefficient5 y**2 -1.832446E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.10, !- Minimum Value of y 32.22; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD EIRFPLR, !- Name -1.842588E-01, !- Coefficient1 Constant 5.105821E-02, !- Coefficient2 x 6.142934E-05, !- Coefficient3 x**2 6.478691E-01, !- Coefficient4 y -4.242816E-01, !- Coefficient5 y**2 -5.442456E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.005374E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.93, !- Minimum Value of x 32.14, !- Maximum Value of x 0.20, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 208V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes, !- Name 1758300, !- Reference Capacity {W} 6.87, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 32.08, !- Reference Leaving Condenser Water Temperature {C} 0.06309, !- Reference Chilled Water Flow Rate {m3/s} 0.06309, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes CAPFT, !- Name 7.950124E-01, !- Coefficient1 Constant 3.170632E-02, !- Coefficient2 x -5.547610E-04, !- Coefficient3 x**2 4.268492E-03, !- Coefficient4 y -1.289046E-04, !- Coefficient5 y**2 4.509069E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.44, !- Minimum Value of y 32.98; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes EIRFT, !- Name 6.428117E-01, !- Coefficient1 Constant 1.299499E-02, !- Coefficient2 x 5.872739E-04, !- Coefficient3 x**2 -5.532320E-03, !- Coefficient4 y 6.809308E-04, !- Coefficient5 y**2 -1.480167E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.44, !- Minimum Value of y 32.98; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes EIRFPLR, !- Name 5.682807E-01, !- Coefficient1 Constant -3.888781E-02, !- Coefficient2 x 6.619097E-06, !- Coefficient3 x**2 1.715735E+00, !- Coefficient4 y -1.791541E+00, !- Coefficient5 y**2 3.851853E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 5.124705E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.92, !- Minimum Value of x 32.08, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1776 kW (505 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes, !- Name 1775900, !- Reference Capacity {W} 8.00, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 19.60, !- Reference Leaving Condenser Water Temperature {C} 0.04757, !- Reference Chilled Water Flow Rate {m3/s} 0.07003, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.17, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.17, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes CAPFT, !- Name -1.221213E-01, !- Coefficient1 Constant -6.119865E-02, !- Coefficient2 x -1.798410E-03, !- Coefficient3 x**2 1.162623E-01, !- Coefficient4 y -3.162366E-03, !- Coefficient5 y**2 4.088809E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.69, !- Minimum Value of y 30.73; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes EIRFT, !- Name 7.400829E-01, !- Coefficient1 Constant -2.067083E-02, !- Coefficient2 x 6.695036E-04, !- Coefficient3 x**2 1.727139E-02, !- Coefficient4 y 2.554481E-04, !- Coefficient5 y**2 -7.023159E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 18.69, !- Minimum Value of y 30.73; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes EIRFPLR, !- Name 8.623059E-01, !- Coefficient1 Constant -3.289272E-02, !- Coefficient2 x 6.345837E-05, !- Coefficient3 x**2 1.416109E-01, !- Coefficient4 y 2.335827E-01, !- Coefficient5 y**2 3.016537E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.083488E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.11, !- Minimum Value of x 30.00, !- Maximum Value of x 0.17, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes ! Manufacturer = Carrier, Model Line = 19XL ! Reference Capacity = 1779 kW (506 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes, !- Name 1779400, !- Reference Capacity {W} 6.18, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.69, !- Reference Leaving Condenser Water Temperature {C} 0.06303, !- Reference Chilled Water Flow Rate {m3/s} 0.08858, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes CAPFT, !- Name -7.421879E-02, !- Coefficient1 Constant -6.864609E-02, !- Coefficient2 x -6.656797E-03, !- Coefficient3 x**2 9.778610E-02, !- Coefficient4 y -2.680195E-03, !- Coefficient5 y**2 6.765638E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.83, !- Minimum Value of y 32.12; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes EIRFT, !- Name 5.396428E-01, !- Coefficient1 Constant -3.183208E-02, !- Coefficient2 x 1.041725E-03, !- Coefficient3 x**2 2.112772E-02, !- Coefficient4 y 4.504330E-05, !- Coefficient5 y**2 -4.947764E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.83, !- Minimum Value of y 32.12; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes EIRFPLR, !- Name 7.137642E-01, !- Coefficient1 Constant -3.096191E-02, !- Coefficient2 x 1.459047E-04, !- Coefficient3 x**2 8.907204E-01, !- Coefficient4 y -1.051301E+00, !- Coefficient5 y**2 2.348095E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 5.406677E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.72, !- Minimum Value of x 31.69, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 1779 kW (506 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes, !- Name 1779400, !- Reference Capacity {W} 6.18, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 33.51, !- Reference Leaving Condenser Water Temperature {C} 0.04454, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes CAPFT, !- Name -1.379667E-01, !- Coefficient1 Constant -8.817299E-02, !- Coefficient2 x -1.551247E-03, !- Coefficient3 x**2 9.297586E-02, !- Coefficient4 y -1.943005E-03, !- Coefficient5 y**2 4.050538E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 27.96, !- Minimum Value of y 34.47; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes EIRFT, !- Name 3.679272E-01, !- Coefficient1 Constant 3.649996E-03, !- Coefficient2 x -1.333659E-03, !- Coefficient3 x**2 6.605569E-03, !- Coefficient4 y 4.699578E-04, !- Coefficient5 y**2 -5.527094E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 27.96, !- Minimum Value of y 34.47; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes EIRFPLR, !- Name 6.454991E-03, !- Coefficient1 Constant 1.094255E-02, !- Coefficient2 x 5.090580E-05, !- Coefficient3 x**2 8.866733E-01, !- Coefficient4 y -4.314429E-01, !- Coefficient5 y**2 -1.400320E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 5.835670E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 19.36, !- Minimum Value of x 32.68, !- Maximum Value of x 0.10, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YT 1794kW/8.11COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1794 kW (510 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1794kW/8.11COP/Vanes, !- Name 1793500, !- Reference Capacity {W} 8.11, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 28.88, !- Reference Leaving Condenser Water Temperature {C} 0.05148, !- Reference Chilled Water Flow Rate {m3/s} 0.09653, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1794kW/8.11COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1794kW/8.11COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1794kW/8.11COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.08, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1794kW/8.11COP/Vanes CAPFT, !- Name 1.475615E+00, !- Coefficient1 Constant -2.480005E-01, !- Coefficient2 x 1.353388E-02, !- Coefficient3 x**2 5.216264E-02, !- Coefficient4 y -2.330109E-03, !- Coefficient5 y**2 5.131852E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 18.71, !- Minimum Value of y 34.34; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1794kW/8.11COP/Vanes EIRFT, !- Name 1.190864E+00, !- Coefficient1 Constant 3.400270E-01, !- Coefficient2 x -8.717000E-03, !- Coefficient3 x**2 -1.107704E-01, !- Coefficient4 y 3.433891E-03, !- Coefficient5 y**2 -8.538300E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 18.71, !- Minimum Value of y 34.34; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1794kW/8.11COP/Vanes EIRFPLR, !- Name -9.081317E-02, !- Coefficient1 Constant 1.524614E-02, !- Coefficient2 x 8.256304E-04, !- Coefficient3 x**2 -6.921348E-01, !- Coefficient4 y 4.110008E+00, !- Coefficient5 y**2 -6.003188E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.751625E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.35, !- Minimum Value of x 28.88, !- Maximum Value of x 0.10, !- Minimum Value of y 1.08; !- Maximum Value of y ! ReformEIRChiller York YT 1794kW/7.90COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1794 kW (510 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1794kW/7.90COP/VSD, !- Name 1793500, !- Reference Capacity {W} 7.90, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 28.90, !- Reference Leaving Condenser Water Temperature {C} 0.05148, !- Reference Chilled Water Flow Rate {m3/s} 0.09653, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1794kW/7.90COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1794kW/7.90COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1794kW/7.90COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1794kW/7.90COP/VSD CAPFT, !- Name 7.431766E-01, !- Coefficient1 Constant -1.738759E-01, !- Coefficient2 x 7.863010E-03, !- Coefficient3 x**2 6.780689E-02, !- Coefficient4 y -1.636950E-03, !- Coefficient5 y**2 3.409649E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 17.43, !- Minimum Value of y 35.71; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1794kW/7.90COP/VSD EIRFT, !- Name 3.622079E-01, !- Coefficient1 Constant -1.249125E-01, !- Coefficient2 x 5.333823E-03, !- Coefficient3 x**2 5.641261E-02, !- Coefficient4 y -3.290614E-04, !- Coefficient5 y**2 8.180145E-06, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 17.43, !- Minimum Value of y 35.71; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1794kW/7.90COP/VSD EIRFPLR, !- Name 3.828090E-01, !- Coefficient1 Constant -1.598908E-02, !- Coefficient2 x -1.273038E-04, !- Coefficient3 x**2 5.991790E-01, !- Coefficient4 y -5.063099E-01, !- Coefficient5 y**2 2.273951E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 4.390985E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.27, !- Minimum Value of x 28.90, !- Maximum Value of x 0.10, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes ! Manufacturer = Carrier, Model Line = 19XL ! Reference Capacity = 1797 kW (511 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes, !- Name 1797000, !- Reference Capacity {W} 5.69, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 34.67, !- Reference Leaving Condenser Water Temperature {C} 0.07737, !- Reference Chilled Water Flow Rate {m3/s} 0.09672, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.39, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.39, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes CAPFT, !- Name 9.173209E-01, !- Coefficient1 Constant 4.990036E-02, !- Coefficient2 x -1.196031E-03, !- Coefficient3 x**2 -2.024380E-03, !- Coefficient4 y -3.141698E-05, !- Coefficient5 y**2 -3.752508E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 10.00, !- Maximum Value of x 26.59, !- Minimum Value of y 34.91; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes EIRFT, !- Name 1.079738E+00, !- Coefficient1 Constant -4.447776E-02, !- Coefficient2 x 1.617276E-03, !- Coefficient3 x**2 8.485662E-04, !- Coefficient4 y 8.268362E-05, !- Coefficient5 y**2 5.543283E-05, !- Coefficient6 x*y 6.67, !- Minimum Value of x 10.00, !- Maximum Value of x 26.59, !- Minimum Value of y 34.91; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes EIRFPLR, !- Name 5.147565E+00, !- Coefficient1 Constant -1.604653E-01, !- Coefficient2 x 2.139293E-05, !- Coefficient3 x**2 -3.215408E+00, !- Coefficient4 y -1.636618E+00, !- Coefficient5 y**2 1.592219E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 7.224656E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 31.64, !- Minimum Value of x 34.67, !- Maximum Value of x 0.39, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 1801 kW (512 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD, !- Name 1800500, !- Reference Capacity {W} 6.34, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 31.70, !- Reference Leaving Condenser Water Temperature {C} 0.05161, !- Reference Chilled Water Flow Rate {m3/s} 0.06385, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD CAPFT, !- Name 3.277256E-01, !- Coefficient1 Constant -9.423458E-02, !- Coefficient2 x -1.714249E-03, !- Coefficient3 x**2 7.496846E-02, !- Coefficient4 y -1.987466E-03, !- Coefficient5 y**2 4.807394E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 19.63, !- Minimum Value of y 32.95; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD EIRFT, !- Name 6.993760E-01, !- Coefficient1 Constant 3.436644E-03, !- Coefficient2 x 1.120695E-03, !- Coefficient3 x**2 -3.794674E-03, !- Coefficient4 y 7.200808E-04, !- Coefficient5 y**2 -1.623357E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 19.63, !- Minimum Value of y 32.95; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD EIRFPLR, !- Name -3.986781E-03, !- Coefficient1 Constant 2.064845E-02, !- Coefficient2 x -1.459614E-05, !- Coefficient3 x**2 -5.111204E-01, !- Coefficient4 y 2.257468E+00, !- Coefficient5 y**2 -1.990453E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -7.517775E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.53, !- Minimum Value of x 31.70, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YT 1867kW/10.09COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1867 kW (531 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1867kW/10.09COP/Vanes, !- Name 1867300, !- Reference Capacity {W} 10.09, !- Reference COP {W/W} 7.78, !- Reference Leaving Chilled Water Temperature {C} 18.18, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09085, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1867kW/10.09COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1867kW/10.09COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1867kW/10.09COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1867kW/10.09COP/Vanes CAPFT, !- Name -8.621766E-02, !- Coefficient1 Constant -4.282771E-02, !- Coefficient2 x -4.467391E-03, !- Coefficient3 x**2 9.890042E-02, !- Coefficient4 y -2.768144E-03, !- Coefficient5 y**2 5.728215E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.96, !- Minimum Value of y 39.35; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1867kW/10.09COP/Vanes EIRFT, !- Name 6.584483E-01, !- Coefficient1 Constant 1.696214E-02, !- Coefficient2 x -3.465522E-03, !- Coefficient3 x**2 2.078998E-02, !- Coefficient4 y 2.909474E-04, !- Coefficient5 y**2 -2.222756E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.96, !- Minimum Value of y 39.35; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1867kW/10.09COP/Vanes EIRFPLR, !- Name -3.108659E-01, !- Coefficient1 Constant 5.639190E-02, !- Coefficient2 x -6.487474E-05, !- Coefficient3 x**2 -9.450752E-01, !- Coefficient4 y 2.690004E+00, !- Coefficient5 y**2 -5.309347E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.748500E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.77, !- Minimum Value of x 32.22, !- Maximum Value of x 0.09, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes ! Manufacturer = Carrier, Model Line = 19XL ! Reference Capacity = 1871 kW (532 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes, !- Name 1870800, !- Reference Capacity {W} 6.49, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 32.00, !- Reference Leaving Condenser Water Temperature {C} 0.06303, !- Reference Chilled Water Flow Rate {m3/s} 0.0877, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes CAPFT, !- Name -7.422008E-01, !- Coefficient1 Constant -5.893189E-02, !- Coefficient2 x -6.359815E-03, !- Coefficient3 x**2 1.450953E-01, !- Coefficient4 y -3.416848E-03, !- Coefficient5 y**2 5.905773E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.92, !- Minimum Value of y 35.06; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes EIRFT, !- Name 1.182368E+00, !- Coefficient1 Constant -6.852914E-02, !- Coefficient2 x 2.718010E-03, !- Coefficient3 x**2 -1.693531E-02, !- Coefficient4 y 6.861400E-04, !- Coefficient5 y**2 4.136164E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.92, !- Minimum Value of y 35.06; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes EIRFPLR, !- Name 1.085769E+00, !- Coefficient1 Constant -5.971095E-02, !- Coefficient2 x 1.041798E-04, !- Coefficient3 x**2 7.182300E-01, !- Coefficient4 y -5.729312E-01, !- Coefficient5 y**2 5.367072E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.472327E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.73, !- Minimum Value of x 32.00, !- Maximum Value of x 0.19, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YT 1881kW/6.77COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1881 kW (535 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1881kW/6.77COP/VSD, !- Name 1881400, !- Reference Capacity {W} 6.77, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.35, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09464, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1881kW/6.77COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1881kW/6.77COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1881kW/6.77COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1881kW/6.77COP/VSD CAPFT, !- Name 2.510830E-01, !- Coefficient1 Constant -3.997687E-02, !- Coefficient2 x -3.627911E-03, !- Coefficient3 x**2 6.819530E-02, !- Coefficient4 y -2.135260E-03, !- Coefficient5 y**2 5.245082E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.80, !- Minimum Value of y 35.02; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1881kW/6.77COP/VSD EIRFT, !- Name 5.450343E-01, !- Coefficient1 Constant -3.893169E-02, !- Coefficient2 x 9.377632E-04, !- Coefficient3 x**2 2.314284E-02, !- Coefficient4 y -1.134638E-05, !- Coefficient5 y**2 7.362152E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.80, !- Minimum Value of y 35.02; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1881kW/6.77COP/VSD EIRFPLR, !- Name 4.949889E-02, !- Coefficient1 Constant 2.267854E-02, !- Coefficient2 x -2.003269E-05, !- Coefficient3 x**2 -9.059476E-01, !- Coefficient4 y 3.032884E+00, !- Coefficient5 y**2 -2.155668E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.190898E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 11.90, !- Minimum Value of x 29.35, !- Maximum Value of x 0.09, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YK 1881kW/6.53COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 1881 kW (535 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 1881kW/6.53COP/Vanes, !- Name 1881400, !- Reference Capacity {W} 6.53, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 31.65, !- Reference Leaving Condenser Water Temperature {C} 0.04397, !- Reference Chilled Water Flow Rate {m3/s} 0.1041, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 1881kW/6.53COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 1881kW/6.53COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 1881kW/6.53COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 1881kW/6.53COP/Vanes CAPFT, !- Name 8.031671E-01, !- Coefficient1 Constant 3.618657E-02, !- Coefficient2 x -1.027472E-03, !- Coefficient3 x**2 1.237132E-02, !- Coefficient4 y -7.469842E-04, !- Coefficient5 y**2 1.123058E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 15.00, !- Minimum Value of y 32.45; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 1881kW/6.53COP/Vanes EIRFT, !- Name 4.262865E-01, !- Coefficient1 Constant 4.727402E-02, !- Coefficient2 x -1.347198E-03, !- Coefficient3 x**2 4.334960E-03, !- Coefficient4 y 5.282605E-04, !- Coefficient5 y**2 -1.449676E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 15.00, !- Minimum Value of y 32.45; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 1881kW/6.53COP/Vanes EIRFPLR, !- Name 3.568323E-01, !- Coefficient1 Constant -1.271482E-02, !- Coefficient2 x -2.846121E-05, !- Coefficient3 x**2 -3.832856E-01, !- Coefficient4 y 2.337873E+00, !- Coefficient5 y**2 1.393942E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.324225E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.42, !- Minimum Value of x 30.85, !- Maximum Value of x 0.19, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YK 1881kW/6.53COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 1881 kW (535 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 1881kW/6.53COP/Vanes_2, !- Name 1881400, !- Reference Capacity {W} 6.53, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 31.65, !- Reference Leaving Condenser Water Temperature {C} 0.04397, !- Reference Chilled Water Flow Rate {m3/s} 0.1041, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 1881kW/6.53COP/Vanes CAPFT_2, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 1881kW/6.53COP/Vanes EIRFT_2, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 1881kW/6.53COP/Vanes EIRFPLR_2, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 1881kW/6.53COP/Vanes CAPFT_2, !- Name 8.031671E-01, !- Coefficient1 Constant 3.618657E-02, !- Coefficient2 x -1.027472E-03, !- Coefficient3 x**2 1.237132E-02, !- Coefficient4 y -7.469842E-04, !- Coefficient5 y**2 1.123058E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 15.00, !- Minimum Value of y 32.45; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 1881kW/6.53COP/Vanes EIRFT_2, !- Name 4.262865E-01, !- Coefficient1 Constant 4.727402E-02, !- Coefficient2 x -1.347198E-03, !- Coefficient3 x**2 4.334960E-03, !- Coefficient4 y 5.282605E-04, !- Coefficient5 y**2 -1.449676E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 15.00, !- Minimum Value of y 32.45; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 1881kW/6.53COP/Vanes EIRFPLR_2, !- Name 2.470999E-01, !- Coefficient1 Constant -4.530708E-03, !- Coefficient2 x 2.522038E-05, !- Coefficient3 x**2 -5.464802E-01, !- Coefficient4 y 2.572647E+00, !- Coefficient5 y**2 3.398388E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.261128E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.27, !- Minimum Value of x 31.58, !- Maximum Value of x 0.19, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1895 kW (539 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes, !- Name 1895400, !- Reference Capacity {W} 6.42, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.66, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09085, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.1, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes CAPFT, !- Name 4.518352E-01, !- Coefficient1 Constant -1.535612E-01, !- Coefficient2 x 1.760231E-03, !- Coefficient3 x**2 8.123118E-02, !- Coefficient4 y -2.460493E-03, !- Coefficient5 y**2 6.371948E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.93, !- Minimum Value of y 40.14; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes EIRFT, !- Name 1.851189E-01, !- Coefficient1 Constant -3.198165E-02, !- Coefficient2 x -8.437565E-04, !- Coefficient3 x**2 4.384625E-02, !- Coefficient4 y -4.446880E-04, !- Coefficient5 y**2 8.645981E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.93, !- Minimum Value of y 40.14; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes EIRFPLR, !- Name 4.912394E-02, !- Coefficient1 Constant 1.922190E-02, !- Coefficient2 x 1.458006E-04, !- Coefficient3 x**2 -1.286997E-01, !- Coefficient4 y 1.371824E+00, !- Coefficient5 y**2 -2.769626E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.782073E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.30, !- Minimum Value of x 30.36, !- Maximum Value of x 0.09, !- Minimum Value of y 1.1; !- Maximum Value of y ! ReformEIRChiller York YT 1934kW/7.55COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 1934 kW (550 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 1934kW/7.55COP/Vanes, !- Name 1934100, !- Reference Capacity {W} 7.55, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 19.93, !- Reference Leaving Condenser Water Temperature {C} 0.05552, !- Reference Chilled Water Flow Rate {m3/s} 0.08675, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 1934kW/7.55COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 1934kW/7.55COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 1934kW/7.55COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1934kW/7.55COP/Vanes CAPFT, !- Name -8.034452E-01, !- Coefficient1 Constant 5.620880E-02, !- Coefficient2 x -1.066333E-03, !- Coefficient3 x**2 1.377705E-01, !- Coefficient4 y -3.123388E-03, !- Coefficient5 y**2 1.042684E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 19.55, !- Minimum Value of y 35.11; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 1934kW/7.55COP/Vanes EIRFT, !- Name 1.464148E+00, !- Coefficient1 Constant -1.335550E-01, !- Coefficient2 x 4.793466E-03, !- Coefficient3 x**2 -2.069042E-02, !- Coefficient4 y 6.523211E-04, !- Coefficient5 y**2 1.245111E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 19.55, !- Minimum Value of y 35.11; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 1934kW/7.55COP/Vanes EIRFPLR, !- Name 7.339218E-01, !- Coefficient1 Constant -3.184317E-02, !- Coefficient2 x -9.387398E-05, !- Coefficient3 x**2 -2.274806E-01, !- Coefficient4 y 1.677164E+00, !- Coefficient5 y**2 3.688705E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.250228E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.48, !- Minimum Value of x 29.90, !- Maximum Value of x 0.10, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes ! Manufacturer = McQuay, Model Line = PEH ! Reference Capacity = 1934 kW (550 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes, !- Name 1934100, !- Reference Capacity {W} 6.01, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 29.54, !- Reference Leaving Condenser Water Temperature {C} 0.05552, !- Reference Chilled Water Flow Rate {m3/s} 0.07981, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes CAPFT, !- Name -4.043899E-01, !- Coefficient1 Constant -5.695254E-02, !- Coefficient2 x -1.353511E-03, !- Coefficient3 x**2 1.215555E-01, !- Coefficient4 y -2.814037E-03, !- Coefficient5 y**2 4.161831E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 19.00, !- Minimum Value of y 36.60; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes EIRFT, !- Name 1.191090E-01, !- Coefficient1 Constant 7.702949E-04, !- Coefficient2 x -2.852916E-03, !- Coefficient3 x**2 4.290826E-02, !- Coefficient4 y -4.014538E-04, !- Coefficient5 y**2 8.913432E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 19.00, !- Minimum Value of y 36.60; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes EIRFPLR, !- Name 1.000427E+00, !- Coefficient1 Constant -3.176111E-02, !- Coefficient2 x -2.412562E-04, !- Coefficient3 x**2 4.886225E-01, !- Coefficient4 y -2.020669E+00, !- Coefficient5 y**2 4.495646E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.357430E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.42, !- Minimum Value of x 30.67, !- Maximum Value of x 0.10, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes ! Manufacturer = McQuay, Model Line = WDC ! Reference Capacity = 1973 kW (561 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes, !- Name 1972800, !- Reference Capacity {W} 6.28, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 32.53, !- Reference Leaving Condenser Water Temperature {C} 0.04145, !- Reference Chilled Water Flow Rate {m3/s} 0.09337, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes CAPFT, !- Name 1.327385E+00, !- Coefficient1 Constant 5.589128E-02, !- Coefficient2 x -6.418354E-03, !- Coefficient3 x**2 -2.827763E-02, !- Coefficient4 y -2.655572E-04, !- Coefficient5 y**2 2.996574E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.36, !- Minimum Value of y 32.81; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes EIRFT, !- Name 1.179827E+00, !- Coefficient1 Constant -5.349290E-02, !- Coefficient2 x -2.095113E-03, !- Coefficient3 x**2 -1.285812E-02, !- Coefficient4 y 2.267511E-04, !- Coefficient5 y**2 2.197542E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.36, !- Minimum Value of y 32.81; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes EIRFPLR, !- Name -9.986603E-01, !- Coefficient1 Constant 7.542346E-02, !- Coefficient2 x -5.753431E-05, !- Coefficient3 x**2 6.665711E-02, !- Coefficient4 y 2.154745E+00, !- Coefficient5 y**2 -7.250027E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.590669E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.29, !- Minimum Value of x 32.08, !- Maximum Value of x 0.09, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller York YK 1997kW/7.24COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 1997 kW (568 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = N/A, Voltage & Phase = N/A ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 1997kW/7.24COP/Vanes, !- Name 1997400, !- Reference Capacity {W} 7.24, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 31.89, !- Reference Leaving Condenser Water Temperature {C} 0.04397, !- Reference Chilled Water Flow Rate {m3/s} 0.1041, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 1997kW/7.24COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 1997kW/7.24COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 1997kW/7.24COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.18, !- Minimum Part Load Ratio 1.07, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.18, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 1997kW/7.24COP/Vanes CAPFT, !- Name 1.039493E+00, !- Coefficient1 Constant 1.593009E-01, !- Coefficient2 x -3.989073E-03, !- Coefficient3 x**2 -3.812180E-02, !- Coefficient4 y 2.881779E-04, !- Coefficient5 y**2 -7.520087E-04, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.16, !- Minimum Value of y 32.70; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 1997kW/7.24COP/Vanes EIRFT, !- Name 1.550813E-01, !- Coefficient1 Constant 1.022114E-01, !- Coefficient2 x -6.511170E-04, !- Coefficient3 x**2 -1.241272E-02, !- Coefficient4 y 1.514358E-03, !- Coefficient5 y**2 -4.090377E-03, !- Coefficient6 x*y 7.22, !- Minimum Value of x 12.78, !- Maximum Value of x 19.16, !- Minimum Value of y 32.70; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 1997kW/7.24COP/Vanes EIRFPLR, !- Name 1.838759E-01, !- Coefficient1 Constant -1.009515E-02, !- Coefficient2 x 1.677624E-04, !- Coefficient3 x**2 9.181489E-01, !- Coefficient4 y -2.434151E-02, !- Coefficient5 y**2 1.727052E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 2.527075E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.57, !- Minimum Value of x 31.75, !- Maximum Value of x 0.18, !- Minimum Value of y 1.07; !- Maximum Value of y ! ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 2043 kW (581 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes, !- Name 2043100, !- Reference Capacity {W} 8.44, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 20.80, !- Reference Leaving Condenser Water Temperature {C} 0.04757, !- Reference Chilled Water Flow Rate {m3/s} 0.06814, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.08, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.08, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes CAPFT, !- Name 7.565419E-01, !- Coefficient1 Constant 1.690707E-02, !- Coefficient2 x -3.988252E-03, !- Coefficient3 x**2 2.008625E-02, !- Coefficient4 y -1.439363E-03, !- Coefficient5 y**2 3.931271E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 20.80, !- Minimum Value of y 32.72; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes EIRFT, !- Name 6.806067E-01, !- Coefficient1 Constant 5.701621E-03, !- Coefficient2 x -1.329020E-03, !- Coefficient3 x**2 1.210419E-02, !- Coefficient4 y 2.563048E-04, !- Coefficient5 y**2 -2.528032E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 20.80, !- Minimum Value of y 32.72; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes EIRFPLR, !- Name -7.300240E-01, !- Coefficient1 Constant 6.016914E-02, !- Coefficient2 x 2.516862E-05, !- Coefficient3 x**2 1.606362E-01, !- Coefficient4 y 1.803623E+00, !- Coefficient5 y**2 -6.158982E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.149832E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.27, !- Minimum Value of x 30.07, !- Maximum Value of x 0.08, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2043 kW (581 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes, !- Name 2043100, !- Reference Capacity {W} 9.08, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 23.11, !- Reference Leaving Condenser Water Temperature {C} 0.09085, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.28, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.28, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes CAPFT, !- Name -2.215335E+00, !- Coefficient1 Constant -3.294601E-02, !- Coefficient2 x -5.300740E-03, !- Coefficient3 x**2 2.341598E-01, !- Coefficient4 y -4.558661E-03, !- Coefficient5 y**2 4.631243E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.06, !- Minimum Value of y 34.90; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes EIRFT, !- Name 1.008753E+00, !- Coefficient1 Constant 3.282653E-02, !- Coefficient2 x 3.719189E-03, !- Coefficient3 x**2 -2.508242E-02, !- Coefficient4 y 1.367676E-03, !- Coefficient5 y**2 -3.739705E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.06, !- Minimum Value of y 34.90; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes EIRFPLR, !- Name 3.696812E-01, !- Coefficient1 Constant 3.068332E-02, !- Coefficient2 x 1.965912E-05, !- Coefficient3 x**2 -1.915197E+00, !- Coefficient4 y 3.980757E+00, !- Coefficient5 y**2 -3.185207E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.418416E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 19.45, !- Minimum Value of x 31.08, !- Maximum Value of x 0.28, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes ! Manufacturer = Carrier, Model Line = 19XL ! Reference Capacity = 2057 kW (585 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes, !- Name 2057200, !- Reference Capacity {W} 6.05, !- Reference COP {W/W} 7.78, !- Reference Leaving Chilled Water Temperature {C} 29.79, !- Reference Leaving Condenser Water Temperature {C} 0.08322, !- Reference Chilled Water Flow Rate {m3/s} 0.09722, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.28, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.28, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes CAPFT, !- Name 6.448091E-01, !- Coefficient1 Constant -3.315001E-02, !- Coefficient2 x -3.168485E-03, !- Coefficient3 x**2 3.196459E-02, !- Coefficient4 y -1.138880E-03, !- Coefficient5 y**2 3.799700E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.89, !- Minimum Value of y 35.37; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes EIRFT, !- Name 7.341312E-01, !- Coefficient1 Constant -7.592418E-02, !- Coefficient2 x -2.065951E-03, !- Coefficient3 x**2 3.153945E-02, !- Coefficient4 y -8.888217E-04, !- Coefficient5 y**2 3.650961E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.89, !- Minimum Value of y 35.37; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes EIRFPLR, !- Name 1.353291E-01, !- Coefficient1 Constant -5.973382E-03, !- Coefficient2 x -2.152787E-05, !- Coefficient3 x**2 1.844856E+00, !- Coefficient4 y -2.868168E+00, !- Coefficient5 y**2 7.003543E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.875512E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 18.64, !- Minimum Value of x 32.19, !- Maximum Value of x 0.28, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YT 2110kW/7.15COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 2110 kW (600 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 2110kW/7.15COP/Vanes, !- Name 2110000, !- Reference Capacity {W} 7.15, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 29.97, !- Reference Leaving Condenser Water Temperature {C} 0.06057, !- Reference Chilled Water Flow Rate {m3/s} 0.09464, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 2110kW/7.15COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 2110kW/7.15COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 2110kW/7.15COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 2110kW/7.15COP/Vanes CAPFT, !- Name 6.132568E-02, !- Coefficient1 Constant -1.142230E-02, !- Coefficient2 x 1.660419E-03, !- Coefficient3 x**2 8.345415E-02, !- Coefficient4 y -2.159087E-03, !- Coefficient5 y**2 1.699787E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 18.99, !- Minimum Value of y 34.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 2110kW/7.15COP/Vanes EIRFT, !- Name 6.140372E-01, !- Coefficient1 Constant -4.277763E-02, !- Coefficient2 x 9.446169E-04, !- Coefficient3 x**2 1.580154E-02, !- Coefficient4 y 1.226130E-04, !- Coefficient5 y**2 3.616708E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 18.99, !- Minimum Value of y 34.89; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 2110kW/7.15COP/Vanes EIRFPLR, !- Name 3.834325E-01, !- Coefficient1 Constant -1.806511E-03, !- Coefficient2 x 5.390925E-05, !- Coefficient3 x**2 1.510060E-02, !- Coefficient4 y 7.165451E-01, !- Coefficient5 y**2 -1.195918E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -7.564269E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.48, !- Minimum Value of x 29.97, !- Maximum Value of x 0.10, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 2124 kW (604 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes, !- Name 2124000, !- Reference Capacity {W} 6.03, !- Reference COP {W/W} 8.89, !- Reference Leaving Chilled Water Temperature {C} 31.31, !- Reference Leaving Condenser Water Temperature {C} 0.05552, !- Reference Chilled Water Flow Rate {m3/s} 0.07981, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes CAPFT, !- Name 8.466662E-01, !- Coefficient1 Constant -3.809647E-02, !- Coefficient2 x 4.003930E-04, !- Coefficient3 x**2 2.913659E-02, !- Coefficient4 y -1.138034E-03, !- Coefficient5 y**2 2.405293E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 20.28, !- Minimum Value of y 36.13; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes EIRFT, !- Name 1.198331E+00, !- Coefficient1 Constant -5.731652E-02, !- Coefficient2 x -4.950792E-03, !- Coefficient3 x**2 -1.013222E-02, !- Coefficient4 y -1.112759E-04, !- Coefficient5 y**2 4.138878E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 20.28, !- Minimum Value of y 36.13; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes EIRFPLR, !- Name -1.353862E+00, !- Coefficient1 Constant 9.444334E-02, !- Coefficient2 x -1.467992E-05, !- Coefficient3 x**2 1.291373E+00, !- Coefficient4 y -2.276361E-01, !- Coefficient5 y**2 -9.395594E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.285196E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.28, !- Minimum Value of x 30.62, !- Maximum Value of x 0.09, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YK 2159kW/6.85COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2159 kW (614 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 2159kW/6.85COP/Vanes, !- Name 2159200, !- Reference Capacity {W} 6.85, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.32, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 2159kW/6.85COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 2159kW/6.85COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 2159kW/6.85COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2159kW/6.85COP/Vanes CAPFT, !- Name -5.164056E-02, !- Coefficient1 Constant -7.384855E-02, !- Coefficient2 x -1.036241E-02, !- Coefficient3 x**2 1.201446E-01, !- Coefficient4 y -3.881099E-03, !- Coefficient5 y**2 9.873049E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.13, !- Minimum Value of y 34.75; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2159kW/6.85COP/Vanes EIRFT, !- Name 1.013059E+00, !- Coefficient1 Constant 2.176325E-03, !- Coefficient2 x -4.682395E-04, !- Coefficient3 x**2 -1.887683E-02, !- Coefficient4 y 7.444727E-04, !- Coefficient5 y**2 -6.685547E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.13, !- Minimum Value of y 34.75; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 2159kW/6.85COP/Vanes EIRFPLR, !- Name 2.315688E-02, !- Coefficient1 Constant 2.746250E-02, !- Coefficient2 x -2.345600E-05, !- Coefficient3 x**2 -4.728932E-01, !- Coefficient4 y 1.778530E+00, !- Coefficient5 y**2 -2.621741E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -3.448533E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.39, !- Minimum Value of x 31.32, !- Maximum Value of x 0.14, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2184 kW (621 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes, !- Name 2183800, !- Reference Capacity {W} 6.78, !- Reference COP {W/W} 7.78, !- Reference Leaving Chilled Water Temperature {C} 35.55, !- Reference Leaving Condenser Water Temperature {C} 0.04883, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes CAPFT, !- Name 1.214452E+00, !- Coefficient1 Constant -1.495671E-02, !- Coefficient2 x -2.934194E-03, !- Coefficient3 x**2 1.568925E-02, !- Coefficient4 y -9.780218E-04, !- Coefficient5 y**2 2.723254E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 30.67, !- Minimum Value of y 36.06; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes EIRFT, !- Name 1.286650E+00, !- Coefficient1 Constant 3.478277E-02, !- Coefficient2 x 2.888239E-03, !- Coefficient3 x**2 -4.763798E-02, !- Coefficient4 y 1.463610E-03, !- Coefficient5 y**2 -3.194170E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 30.67, !- Minimum Value of y 36.06; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes EIRFPLR, !- Name 2.473025E+00, !- Coefficient1 Constant -1.277887E-01, !- Coefficient2 x -3.279364E-05, !- Coefficient3 x**2 -3.156699E-01, !- Coefficient4 y -3.527895E-01, !- Coefficient5 y**2 1.304080E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -8.547163E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 19.44, !- Minimum Value of x 32.76, !- Maximum Value of x 0.09, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller York YK 2201kW/6.69COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2201 kW (626 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 2201kW/6.69COP/Vanes, !- Name 2201400, !- Reference Capacity {W} 6.69, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.44, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 2201kW/6.69COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 2201kW/6.69COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 2201kW/6.69COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2201kW/6.69COP/Vanes CAPFT, !- Name -2.132698E-01, !- Coefficient1 Constant -9.712289E-02, !- Coefficient2 x -7.445252E-03, !- Coefficient3 x**2 1.333444E-01, !- Coefficient4 y -3.971284E-03, !- Coefficient5 y**2 9.247854E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.11, !- Minimum Value of y 34.92; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2201kW/6.69COP/Vanes EIRFT, !- Name 8.761500E-01, !- Coefficient1 Constant 2.513467E-02, !- Coefficient2 x -8.565300E-04, !- Coefficient3 x**2 -1.383243E-02, !- Coefficient4 y 6.968311E-04, !- Coefficient5 y**2 -1.236275E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.11, !- Minimum Value of y 34.92; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 2201kW/6.69COP/Vanes EIRFPLR, !- Name 3.515554E-03, !- Coefficient1 Constant 3.070346E-02, !- Coefficient2 x -1.198496E-08, !- Coefficient3 x**2 -5.568236E-01, !- Coefficient4 y 1.810053E+00, !- Coefficient5 y**2 -3.070120E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.564025E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.39, !- Minimum Value of x 31.44, !- Maximum Value of x 0.14, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller York YT 2233kW/9.54COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 2233 kW (635 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 2233kW/9.54COP/VSD, !- Name 2233000, !- Reference Capacity {W} 9.54, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 17.85, !- Reference Leaving Condenser Water Temperature {C} 0.06214, !- Reference Chilled Water Flow Rate {m3/s} 0.1164, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 2233kW/9.54COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 2233kW/9.54COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 2233kW/9.54COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 2233kW/9.54COP/VSD CAPFT, !- Name 4.415564E-01, !- Coefficient1 Constant -8.565634E-02, !- Coefficient2 x 5.991478E-03, !- Coefficient3 x**2 7.254089E-02, !- Coefficient4 y -2.100013E-03, !- Coefficient5 y**2 2.235322E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 17.85, !- Minimum Value of y 34.04; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 2233kW/9.54COP/VSD EIRFT, !- Name 6.807725E-01, !- Coefficient1 Constant 5.131219E-03, !- Coefficient2 x -1.903951E-03, !- Coefficient3 x**2 1.574939E-02, !- Coefficient4 y 4.860452E-04, !- Coefficient5 y**2 -8.155062E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 17.85, !- Minimum Value of y 34.04; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 2233kW/9.54COP/VSD EIRFPLR, !- Name 5.277145E-01, !- Coefficient1 Constant -3.889873E-02, !- Coefficient2 x 3.184271E-04, !- Coefficient3 x**2 -3.914956E-02, !- Coefficient4 y 1.530363E+00, !- Coefficient5 y**2 2.241553E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -8.178631E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.30, !- Minimum Value of x 28.93, !- Maximum Value of x 0.10, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller York YT 2233kW/9.54COP/VSD ! Manufacturer = York, Model Line = YT ! Reference Capacity = 2233 kW (635 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 2233kW/9.54COP/VSD_2, !- Name 2233000, !- Reference Capacity {W} 9.54, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 17.93, !- Reference Leaving Condenser Water Temperature {C} 0.06107, !- Reference Chilled Water Flow Rate {m3/s} 0.11451, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 2233kW/9.54COP/VSD CAPFT_2, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 2233kW/9.54COP/VSD EIRFT_2, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 2233kW/9.54COP/VSD EIRFPLR_2, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 2233kW/9.54COP/VSD CAPFT_2, !- Name 4.939632E-01, !- Coefficient1 Constant -9.743766E-02, !- Coefficient2 x 6.782771E-03, !- Coefficient3 x**2 7.149216E-02, !- Coefficient4 y -2.077461E-03, !- Coefficient5 y**2 2.246608E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 17.93, !- Minimum Value of y 34.11; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 2233kW/9.54COP/VSD EIRFT_2, !- Name 7.177745E-01, !- Coefficient1 Constant -9.460212E-04, !- Coefficient2 x -1.451469E-03, !- Coefficient3 x**2 1.431719E-02, !- Coefficient4 y 5.149926E-04, !- Coefficient5 y**2 -8.367784E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 17.93, !- Minimum Value of y 34.11; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 2233kW/9.54COP/VSD EIRFPLR_2, !- Name 4.637900E-01, !- Coefficient1 Constant -3.344690E-02, !- Coefficient2 x 2.768776E-04, !- Coefficient3 x**2 -2.457480E-03, !- Coefficient4 y 1.477501E+00, !- Coefficient5 y**2 1.903803E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -7.622945E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.30, !- Minimum Value of x 28.92, !- Maximum Value of x 0.10, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller York YK 2237kW/6.41COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2237 kW (636 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 2237kW/6.41COP/Vanes, !- Name 2236600, !- Reference Capacity {W} 6.41, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.56, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 2237kW/6.41COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 2237kW/6.41COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 2237kW/6.41COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.13, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.13, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2237kW/6.41COP/Vanes CAPFT, !- Name 2.686272E-01, !- Coefficient1 Constant -4.051077E-02, !- Coefficient2 x -2.130203E-03, !- Coefficient3 x**2 7.674578E-02, !- Coefficient4 y -2.282522E-03, !- Coefficient5 y**2 4.478325E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.30, !- Minimum Value of y 35.03; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2237kW/6.41COP/Vanes EIRFT, !- Name 9.801548E-01, !- Coefficient1 Constant 2.026687E-02, !- Coefficient2 x 1.578707E-03, !- Coefficient3 x**2 -2.077442E-02, !- Coefficient4 y 9.180399E-04, !- Coefficient5 y**2 -2.105614E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.30, !- Minimum Value of y 35.03; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 2237kW/6.41COP/Vanes EIRFPLR, !- Name 2.013555E-01, !- Coefficient1 Constant 1.055744E-02, !- Coefficient2 x -2.587525E-05, !- Coefficient3 x**2 -3.074339E-01, !- Coefficient4 y 1.634011E+00, !- Coefficient5 y**2 -9.188562E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -5.458636E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.40, !- Minimum Value of x 31.56, !- Maximum Value of x 0.13, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YK 2275kW/6.32COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2275 kW (647 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 2275kW/6.32COP/Vanes, !- Name 2275200, !- Reference Capacity {W} 6.32, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.66, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 2275kW/6.32COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 2275kW/6.32COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 2275kW/6.32COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.13, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.13, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2275kW/6.32COP/Vanes CAPFT, !- Name 3.942868E-01, !- Coefficient1 Constant -5.577019E-02, !- Coefficient2 x -1.105625E-03, !- Coefficient3 x**2 6.901415E-02, !- Coefficient4 y -2.090072E-03, !- Coefficient5 y**2 4.392250E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.39, !- Minimum Value of y 35.17; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2275kW/6.32COP/Vanes EIRFT, !- Name 9.580348E-01, !- Coefficient1 Constant 3.689486E-02, !- Coefficient2 x 4.773179E-04, !- Coefficient3 x**2 -2.362075E-02, !- Coefficient4 y 9.923519E-04, !- Coefficient5 y**2 -2.211705E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.39, !- Minimum Value of y 35.17; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 2275kW/6.32COP/Vanes EIRFPLR, !- Name 3.719905E-01, !- Coefficient1 Constant -8.208446E-04, !- Coefficient2 x -2.324176E-05, !- Coefficient3 x**2 -3.530535E-01, !- Coefficient4 y 1.643505E+00, !- Coefficient5 y**2 2.031420E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -6.783250E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.41, !- Minimum Value of x 31.66, !- Maximum Value of x 0.13, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YK 2275kW/6.32COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2275 kW (647 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 2275kW/6.32COP/Vanes_2, !- Name 2275200, !- Reference Capacity {W} 6.32, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.66, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 2275kW/6.32COP/Vanes CAPFT_2, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 2275kW/6.32COP/Vanes EIRFT_2, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 2275kW/6.32COP/Vanes EIRFPLR_2, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.13, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.13, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2275kW/6.32COP/Vanes CAPFT_2, !- Name 9.227391E-01, !- Coefficient1 Constant -3.381914E-02, !- Coefficient2 x 4.402874E-04, !- Coefficient3 x**2 2.528344E-02, !- Coefficient4 y -1.131217E-03, !- Coefficient5 y**2 2.844510E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.78, !- Minimum Value of y 35.17; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2275kW/6.32COP/Vanes EIRFT_2, !- Name 8.910758E-01, !- Coefficient1 Constant 4.115735E-03, !- Coefficient2 x -2.403988E-04, !- Coefficient3 x**2 -1.277389E-02, !- Coefficient4 y 6.650664E-04, !- Coefficient5 y**2 -8.163142E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.78, !- Minimum Value of y 35.17; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 2275kW/6.32COP/Vanes EIRFPLR_2, !- Name 2.464807E-01, !- Coefficient1 Constant 6.198472E-03, !- Coefficient2 x -2.091245E-05, !- Coefficient3 x**2 -1.584035E-01, !- Coefficient4 y 1.396936E+00, !- Coefficient5 y**2 -5.134757E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.982764E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.41, !- Minimum Value of x 31.66, !- Maximum Value of x 0.13, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2300 kW (654 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes, !- Name 2299900, !- Reference Capacity {W} 8.10, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 19.58, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09085, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.23, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.23, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes CAPFT, !- Name 4.945951E-02, !- Coefficient1 Constant 1.763194E-02, !- Coefficient2 x -1.707908E-03, !- Coefficient3 x**2 8.024411E-02, !- Coefficient4 y -2.301455E-03, !- Coefficient5 y**2 2.334434E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 19.58, !- Minimum Value of y 34.79; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes EIRFT, !- Name 6.870347E-01, !- Coefficient1 Constant 1.176508E-02, !- Coefficient2 x 5.473075E-04, !- Coefficient3 x**2 1.235577E-02, !- Coefficient4 y 3.200085E-04, !- Coefficient5 y**2 -1.378535E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 19.58, !- Minimum Value of y 34.79; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes EIRFPLR, !- Name -8.187804E-01, !- Coefficient1 Constant 9.052788E-02, !- Coefficient2 x -2.443564E-04, !- Coefficient3 x**2 -2.116230E+00, !- Coefficient4 y 5.680799E+00, !- Coefficient5 y**2 -7.780553E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.907348E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 18.53, !- Minimum Value of x 32.25, !- Maximum Value of x 0.23, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2317 kW (659 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD, !- Name 2317400, !- Reference Capacity {W} 6.33, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 35.10, !- Reference Leaving Condenser Water Temperature {C} 0.09085, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD CAPFT, !- Name 6.632457E-01, !- Coefficient1 Constant 4.608638E-03, !- Coefficient2 x -1.100111E-03, !- Coefficient3 x**2 1.651605E-02, !- Coefficient4 y -4.753748E-04, !- Coefficient5 y**2 1.648311E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.67, !- Minimum Value of y 35.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD EIRFT, !- Name 2.905409E-01, !- Coefficient1 Constant -2.093028E-02, !- Coefficient2 x 9.792522E-04, !- Coefficient3 x**2 1.493146E-02, !- Coefficient4 y 3.511684E-04, !- Coefficient5 y**2 -8.356167E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.67, !- Minimum Value of y 35.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD EIRFPLR, !- Name -4.540034E-01, !- Coefficient1 Constant 3.433262E-02, !- Coefficient2 x 4.845589E-05, !- Coefficient3 x**2 9.799190E-01, !- Coefficient4 y 2.028044E-01, !- Coefficient5 y**2 -3.705958E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 3.066979E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.11, !- Minimum Value of x 31.11, !- Maximum Value of x 0.10, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 2391 kW (680 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes, !- Name 2391300, !- Reference Capacity {W} 6.77, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 31.65, !- Reference Leaving Condenser Water Temperature {C} 0.06858, !- Reference Chilled Water Flow Rate {m3/s} 0.0846, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes CAPFT, !- Name -1.092340E-01, !- Coefficient1 Constant -7.214951E-02, !- Coefficient2 x -1.929403E-03, !- Coefficient3 x**2 1.073964E-01, !- Coefficient4 y -2.585892E-03, !- Coefficient5 y**2 4.163448E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 19.72, !- Minimum Value of y 32.63; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes EIRFT, !- Name 6.095032E-01, !- Coefficient1 Constant -1.108553E-02, !- Coefficient2 x 6.938966E-04, !- Coefficient3 x**2 1.166583E-02, !- Coefficient4 y 2.514251E-04, !- Coefficient5 y**2 -7.733820E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 19.72, !- Minimum Value of y 32.63; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes EIRFPLR, !- Name 4.306200E-01, !- Coefficient1 Constant -7.328716E-03, !- Coefficient2 x 9.930747E-06, !- Coefficient3 x**2 9.234623E-01, !- Coefficient4 y -1.158929E+00, !- Coefficient5 y**2 6.792175E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 8.117517E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.57, !- Minimum Value of x 31.65, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD ! Manufacturer = Carrier, Model Line = 19XR ! Reference Capacity = 2391 kW (680 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD, !- Name 2391300, !- Reference Capacity {W} 6.44, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 31.70, !- Reference Leaving Condenser Water Temperature {C} 0.06858, !- Reference Chilled Water Flow Rate {m3/s} 0.0846, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD CAPFT, !- Name -1.105784E-01, !- Coefficient1 Constant -7.215657E-02, !- Coefficient2 x -1.924398E-03, !- Coefficient3 x**2 1.073110E-01, !- Coefficient4 y -2.578512E-03, !- Coefficient5 y**2 4.153768E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 19.76, !- Minimum Value of y 32.68; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD EIRFT, !- Name 6.030335E-01, !- Coefficient1 Constant -1.099862E-02, !- Coefficient2 x 6.898379E-04, !- Coefficient3 x**2 1.213607E-02, !- Coefficient4 y 2.415707E-04, !- Coefficient5 y**2 -7.792847E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 19.76, !- Minimum Value of y 32.68; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD EIRFPLR, !- Name 1.309393E-01, !- Coefficient1 Constant 1.443518E-02, !- Coefficient2 x -9.784460E-07, !- Coefficient3 x**2 -8.596110E-01, !- Coefficient4 y 2.724452E+00, !- Coefficient5 y**2 -1.436270E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -9.969677E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.53, !- Minimum Value of x 31.70, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YK 2412kW/5.58COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2412 kW (686 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 2412kW/5.58COP/Vanes, !- Name 2412400, !- Reference Capacity {W} 5.58, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 32.10, !- Reference Leaving Condenser Water Temperature {C} 0.09085, !- Reference Chilled Water Flow Rate {m3/s} 0.11356, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 2412kW/5.58COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 2412kW/5.58COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 2412kW/5.58COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.12, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.12, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2412kW/5.58COP/Vanes CAPFT, !- Name 6.042244E-01, !- Coefficient1 Constant -5.282819E-03, !- Coefficient2 x -1.993748E-04, !- Coefficient3 x**2 2.972266E-02, !- Coefficient4 y -8.288016E-04, !- Coefficient5 y**2 1.587869E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.30, !- Minimum Value of y 35.78; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2412kW/5.58COP/Vanes EIRFT, !- Name 3.175495E-01, !- Coefficient1 Constant -2.563749E-02, !- Coefficient2 x 1.177157E-03, !- Coefficient3 x**2 3.422467E-02, !- Coefficient4 y -2.556973E-04, !- Coefficient5 y**2 -1.034934E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.30, !- Minimum Value of y 35.78; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 2412kW/5.58COP/Vanes EIRFPLR, !- Name -8.659288E-02, !- Coefficient1 Constant 4.280342E-02, !- Coefficient2 x 4.027354E-05, !- Coefficient3 x**2 -8.726041E-01, !- Coefficient4 y 3.432389E+00, !- Coefficient5 y**2 -4.514744E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.440179E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.47, !- Minimum Value of x 32.10, !- Maximum Value of x 0.12, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 2462 kW (700 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes, !- Name 2461600, !- Reference Capacity {W} 6.67, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 29.44, !- Reference Leaving Condenser Water Temperature {C} 0.07066, !- Reference Chilled Water Flow Rate {m3/s} 0.10157, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes CAPFT, !- Name 4.142265E-01, !- Coefficient1 Constant 1.542602E-02, !- Coefficient2 x -7.911049E-03, !- Coefficient3 x**2 7.508392E-02, !- Coefficient4 y -2.773731E-03, !- Coefficient5 y**2 5.837360E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 21.31, !- Minimum Value of y 31.55; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes EIRFT, !- Name 5.570216E-01, !- Coefficient1 Constant 9.193251E-03, !- Coefficient2 x -5.145487E-03, !- Coefficient3 x**2 6.832209E-03, !- Coefficient4 y 1.403064E-04, !- Coefficient5 y**2 1.590130E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 21.31, !- Minimum Value of y 31.55; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes EIRFPLR, !- Name -8.594949E-01, !- Coefficient1 Constant 6.566973E-02, !- Coefficient2 x 1.939985E-05, !- Coefficient3 x**2 1.001788E+00, !- Coefficient4 y 1.280680E-01, !- Coefficient5 y**2 -6.652851E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 7.389430E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.29, !- Minimum Value of x 30.58, !- Maximum Value of x 0.10, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP ! Creator: John Wu ! Organization: Trane Energy Solutions Group ! Manufacturer = Trane, Model Line = TCVHG0670 ! Reference Capacity = 2490 kW (708 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R123, Voltage & Phase = 415V-3PH-50HZ ! Unloading Mechanism = Inlet Guide Vanes ! Output:PreprocessorMessage, Conversion 7.2 => 8.0, !- Preprocessor Name Warning, !- Error Severity Chiller:Electric:ReformulatedEIR="ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP", !- Message Line 1 defaults for this object have changed. See InputOutputReference document for details.; !- Message Line 2 Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP, !- Name 2490036, !- Reference Capacity {W} 6.505, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 35.24, !- Reference Leaving Condenser Water Temperature {C} 0.08894, !- Reference Chilled Water Flow Rate {m3/s} 0.13400, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.087, !- Minimum Part Load Ratio 1.001, !- Maximum Part Load Ratio 0.801, !- Optimum Part Load Ratio 0.087, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 5.6, !- Leaving Chilled Water Lower Temperature Limit {C} LeavingSetpointModulated,!- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP CAPFT, !- Name 0.403602663, !- Coefficient1 Constant -0.006794189, !- Coefficient2 x -0.000564953, !- Coefficient3 x**2 0.046104574, !- Coefficient4 y -0.00117838, !- Coefficient5 y**2 0.00215062, !- Coefficient6 x*y 5.60, !- Minimum Value of x 7.20, !- Maximum Value of x 30.8, !- Minimum Value of y 36.9; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP EIRFT, !- Name 1.056335684, !- Coefficient1 Constant 0.045975279, !- Coefficient2 x 0.001839862, !- Coefficient3 x**2 -0.028575058, !- Coefficient4 y 0.000935916, !- Coefficient5 y**2 -0.002552237, !- Coefficient6 x*y 5.60, !- Minimum Value of x 7.20, !- Maximum Value of x 30.8, !- Minimum Value of y 36.9; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP EIRFPLR, !- Name 0.243594787, !- Coefficient1 Constant -0.017680952, !- Coefficient2 x 0.000731787, !- Coefficient3 x**2 0.848300868, !- Coefficient4 y -0.358252903, !- Coefficient5 y**2 0.000896547, !- Coefficient6 x*y -9.0516E-06, !- Coefficient7 x**3 0.736449508, !- Coefficient8 y**3 0.000316148, !- Coefficient9 x**2*y -0.022213923, !- Coefficient10 x*y**2 27.22, !- Minimum Value of x 36.86, !- Maximum Value of x 0.08741, !- Minimum Value of y 1.00129; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2567 kW (730 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD, !- Name 2567100, !- Reference Capacity {W} 11.77, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 17.18, !- Reference Leaving Condenser Water Temperature {C} 0.12113, !- Reference Chilled Water Flow Rate {m3/s} 0.15142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.11, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.11, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD CAPFT, !- Name 3.150690E-01, !- Coefficient1 Constant 7.668658E-03, !- Coefficient2 x -4.348521E-03, !- Coefficient3 x**2 4.998865E-02, !- Coefficient4 y -1.242078E-03, !- Coefficient5 y**2 3.158318E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.02, !- Minimum Value of y 35.24; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD EIRFT, !- Name 3.654848E-01, !- Coefficient1 Constant -3.708915E-02, !- Coefficient2 x -7.448564E-04, !- Coefficient3 x**2 4.585429E-02, !- Coefficient4 y 1.719990E-04, !- Coefficient5 y**2 -3.518960E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.02, !- Minimum Value of y 35.24; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD EIRFPLR, !- Name -2.955643E-01, !- Coefficient1 Constant 2.586243E-02, !- Coefficient2 x 3.917081E-05, !- Coefficient3 x**2 7.440108E-01, !- Coefficient4 y 3.533880E-01, !- Coefficient5 y**2 -2.797714E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 2.247632E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.07, !- Minimum Value of x 30.74, !- Maximum Value of x 0.11, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller York YK 2771kW/6.84COP/VSD ! Manufacturer = York, Model Line = YK ! Reference Capacity = 2771 kW (788 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = VSD ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 2771kW/6.84COP/VSD, !- Name 2771100, !- Reference Capacity {W} 6.84, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 28.91, !- Reference Leaving Condenser Water Temperature {C} 0.10094, !- Reference Chilled Water Flow Rate {m3/s} 0.15142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 2771kW/6.84COP/VSD CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 2771kW/6.84COP/VSD EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 2771kW/6.84COP/VSD EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2771kW/6.84COP/VSD CAPFT, !- Name 4.744171E-01, !- Coefficient1 Constant 3.178084E-02, !- Coefficient2 x -1.802780E-03, !- Coefficient3 x**2 5.380910E-02, !- Coefficient4 y -1.642699E-03, !- Coefficient5 y**2 1.330445E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.24, !- Minimum Value of y 34.26; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 2771kW/6.84COP/VSD EIRFT, !- Name 8.286811E-01, !- Coefficient1 Constant 2.304403E-02, !- Coefficient2 x -6.841126E-04, !- Coefficient3 x**2 -1.886483E-02, !- Coefficient4 y 1.088152E-03, !- Coefficient5 y**2 -1.846484E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.24, !- Minimum Value of y 34.26; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 2771kW/6.84COP/VSD EIRFPLR, !- Name -6.205477E-01, !- Coefficient1 Constant 5.913283E-02, !- Coefficient2 x -1.627433E-05, !- Coefficient3 x**2 1.051821E-01, !- Coefficient4 y 1.413365E+00, !- Coefficient5 y**2 -5.839529E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 9.424834E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 14.86, !- Minimum Value of x 28.42, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 2799 kW (796 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes, !- Name 2799200, !- Reference Capacity {W} 6.40, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.74, !- Reference Leaving Condenser Water Temperature {C} 0.09893, !- Reference Chilled Water Flow Rate {m3/s} 0.13761, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes CAPFT, !- Name -2.176308E-01, !- Coefficient1 Constant -4.941294E-02, !- Coefficient2 x 8.700615E-05, !- Coefficient3 x**2 9.612083E-02, !- Coefficient4 y -2.027636E-03, !- Coefficient5 y**2 2.538833E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.38, !- Minimum Value of y 35.07; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes EIRFT, !- Name -1.986966E-02, !- Coefficient1 Constant -7.848021E-02, !- Coefficient2 x 1.944174E-03, !- Coefficient3 x**2 7.122651E-02, !- Coefficient4 y -9.173802E-04, !- Coefficient5 y**2 5.837817E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.38, !- Minimum Value of y 35.07; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes EIRFPLR, !- Name 3.516172E-01, !- Coefficient1 Constant 9.213025E-03, !- Coefficient2 x -2.382325E-05, !- Coefficient3 x**2 1.223162E-01, !- Coefficient4 y -1.820075E-01, !- Coefficient5 y**2 -7.843422E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 6.884847E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.67, !- Minimum Value of x 31.74, !- Maximum Value of x 0.20, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller York YT 3133kW/9.16COP/Vanes ! Manufacturer = York, Model Line = YT ! Reference Capacity = 3133 kW (891 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YT 3133kW/9.16COP/Vanes, !- Name 3133300, !- Reference Capacity {W} 9.16, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 19.37, !- Reference Leaving Condenser Water Temperature {C} 0.08076, !- Reference Chilled Water Flow Rate {m3/s} 0.12618, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YT 3133kW/9.16COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YT 3133kW/9.16COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YT 3133kW/9.16COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.07, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.07, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 3133kW/9.16COP/Vanes CAPFT, !- Name 6.112157E-01, !- Coefficient1 Constant -1.430728E-02, !- Coefficient2 x 9.823748E-05, !- Coefficient3 x**2 3.293543E-02, !- Coefficient4 y -1.221859E-03, !- Coefficient5 y**2 2.659301E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 19.37, !- Minimum Value of y 35.91; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YT 3133kW/9.16COP/Vanes EIRFT, !- Name 8.749714E-01, !- Coefficient1 Constant -2.881975E-02, !- Coefficient2 x 2.003695E-03, !- Coefficient3 x**2 7.313755E-03, !- Coefficient4 y 5.578288E-04, !- Coefficient5 y**2 -1.170615E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 19.37, !- Minimum Value of y 35.91; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YT 3133kW/9.16COP/Vanes EIRFPLR, !- Name 3.389568E-01, !- Coefficient1 Constant -1.864923E-02, !- Coefficient2 x 3.548361E-04, !- Coefficient3 x**2 1.107404E+00, !- Coefficient4 y -5.912797E-01, !- Coefficient5 y**2 -4.559304E-04, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 3.910858E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.49, !- Minimum Value of x 30.72, !- Maximum Value of x 0.07, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 3165 kW (900 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes, !- Name 3165000, !- Reference Capacity {W} 6.48, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 29.19, !- Reference Leaving Condenser Water Temperature {C} 0.09085, !- Reference Chilled Water Flow Rate {m3/s} 0.13627, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes CAPFT, !- Name 1.575783E+00, !- Coefficient1 Constant 3.340085E-02, !- Coefficient2 x -1.294551E-02, !- Coefficient3 x**2 -2.136229E-02, !- Coefficient4 y -1.076276E-03, !- Coefficient5 y**2 7.287288E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 20.90, !- Minimum Value of y 31.43; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes EIRFT, !- Name 1.176153E+00, !- Coefficient1 Constant 2.944151E-02, !- Coefficient2 x -1.226585E-02, !- Coefficient3 x**2 -3.542539E-02, !- Coefficient4 y 4.663835E-04, !- Coefficient5 y**2 4.521499E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 20.90, !- Minimum Value of y 31.43; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes EIRFPLR, !- Name -1.080715E+00, !- Coefficient1 Constant 7.856030E-02, !- Coefficient2 x -1.461231E-04, !- Coefficient3 x**2 1.153308E+00, !- Coefficient4 y -1.705463E-01, !- Coefficient5 y**2 -7.105856E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.002552E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.26, !- Minimum Value of x 30.33, !- Maximum Value of x 0.10, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes ! Manufacturer = McQuay, Model Line = PFH ! Reference Capacity = 4020 kW (1143 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes, !- Name 4019500, !- Reference Capacity {W} 7.35, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 23.88, !- Reference Leaving Condenser Water Temperature {C} 0.07874, !- Reference Chilled Water Flow Rate {m3/s} 0.09842, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes CAPFT, !- Name 7.840238E-01, !- Coefficient1 Constant -2.030602E-02, !- Coefficient2 x -6.024097E-03, !- Coefficient3 x**2 3.464466E-02, !- Coefficient4 y -2.015835E-03, !- Coefficient5 y**2 5.876334E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 23.88, !- Minimum Value of y 34.13; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes EIRFT, !- Name 9.146197E-01, !- Coefficient1 Constant -2.888281E-02, !- Coefficient2 x -4.194058E-04, !- Coefficient3 x**2 1.312299E-03, !- Coefficient4 y 3.957170E-04, !- Coefficient5 y**2 1.747410E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 23.88, !- Minimum Value of y 34.13; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes EIRFPLR, !- Name -6.055569E-01, !- Coefficient1 Constant 4.924519E-02, !- Coefficient2 x -2.046580E-05, !- Coefficient3 x**2 3.574244E-01, !- Coefficient4 y 1.429584E+00, !- Coefficient5 y**2 -4.800957E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.995032E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.12, !- Minimum Value of x 31.59, !- Maximum Value of x 0.14, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller York YK 4396kW/6.63COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4396 kW (1250 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 4396kW/6.63COP/Vanes, !- Name 4395800, !- Reference Capacity {W} 6.63, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.58, !- Reference Leaving Condenser Water Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 4396kW/6.63COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 4396kW/6.63COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 4396kW/6.63COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.41, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.41, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4396kW/6.63COP/Vanes CAPFT, !- Name -7.935103E-01, !- Coefficient1 Constant -1.859711E-01, !- Coefficient2 x -1.136209E-02, !- Coefficient3 x**2 2.223615E-01, !- Coefficient4 y -6.910739E-03, !- Coefficient5 y**2 1.608112E-02, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 18.53, !- Minimum Value of y 31.58; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4396kW/6.63COP/Vanes EIRFT, !- Name 3.992978E-01, !- Coefficient1 Constant -5.787211E-02, !- Coefficient2 x 4.974140E-04, !- Coefficient3 x**2 4.071879E-02, !- Coefficient4 y -5.579169E-04, !- Coefficient5 y**2 9.811292E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 18.53, !- Minimum Value of y 31.58; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 4396kW/6.63COP/Vanes EIRFPLR, !- Name 3.551587E-01, !- Coefficient1 Constant -8.505111E-03, !- Coefficient2 x 1.396120E-04, !- Coefficient3 x**2 5.048375E-01, !- Coefficient4 y -1.447328E-01, !- Coefficient5 y**2 1.902634E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 3.599323E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.36, !- Minimum Value of x 31.72, !- Maximum Value of x 0.41, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller York YK 4477kW/6.64COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4477 kW (1273 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 4477kW/6.64COP/Vanes, !- Name 4476700, !- Reference Capacity {W} 6.64, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.67, !- Reference Leaving Condenser Water Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 4477kW/6.64COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 4477kW/6.64COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 4477kW/6.64COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.41, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.41, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4477kW/6.64COP/Vanes CAPFT, !- Name -5.612561E-01, !- Coefficient1 Constant -2.094117E-01, !- Coefficient2 x -8.555483E-03, !- Coefficient3 x**2 2.050690E-01, !- Coefficient4 y -6.451488E-03, !- Coefficient5 y**2 1.561052E-02, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 18.50, !- Minimum Value of y 31.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4477kW/6.64COP/Vanes EIRFT, !- Name 1.597687E-01, !- Coefficient1 Constant -3.513678E-02, !- Coefficient2 x -2.666547E-03, !- Coefficient3 x**2 5.561175E-02, !- Coefficient4 y -9.273482E-04, !- Coefficient5 y**2 1.559350E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 18.50, !- Minimum Value of y 31.67; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 4477kW/6.64COP/Vanes EIRFPLR, !- Name 6.263474E-01, !- Coefficient1 Constant -1.468760E-02, !- Coefficient2 x 2.187947E-04, !- Coefficient3 x**2 -4.940077E-01, !- Coefficient4 y 1.448597E+00, !- Coefficient5 y**2 4.085582E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.576722E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.36, !- Minimum Value of x 31.72, !- Maximum Value of x 0.41, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller York YK 4515kW/6.22COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4515 kW (1284 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 4515kW/6.22COP/Vanes, !- Name 4515400, !- Reference Capacity {W} 6.22, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.76, !- Reference Leaving Condenser Water Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 4515kW/6.22COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 4515kW/6.22COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 4515kW/6.22COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.40, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.40, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4515kW/6.22COP/Vanes CAPFT, !- Name 2.075078E-01, !- Coefficient1 Constant -1.981043E-02, !- Coefficient2 x -2.892690E-03, !- Coefficient3 x**2 5.881989E-02, !- Coefficient4 y -1.521616E-03, !- Coefficient5 y**2 3.461206E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 17.15, !- Minimum Value of y 31.76; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4515kW/6.22COP/Vanes EIRFT, !- Name 6.011575E-01, !- Coefficient1 Constant 1.661031E-02, !- Coefficient2 x -2.137279E-06, !- Coefficient3 x**2 4.501265E-03, !- Coefficient4 y 5.130434E-04, !- Coefficient5 y**2 -1.786025E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 17.15, !- Minimum Value of y 31.76; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 4515kW/6.22COP/Vanes EIRFPLR, !- Name 7.069612E-01, !- Coefficient1 Constant -1.915921E-02, !- Coefficient2 x 3.601682E-04, !- Coefficient3 x**2 -2.561145E-01, !- Coefficient4 y 1.177821E+00, !- Coefficient5 y**2 2.539786E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.447869E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.39, !- Minimum Value of x 31.80, !- Maximum Value of x 0.40, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YK 4537kW/6.28COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4537 kW (1290 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 4537kW/6.28COP/Vanes, !- Name 4536500, !- Reference Capacity {W} 6.28, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.78, !- Reference Leaving Condenser Water Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 4537kW/6.28COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 4537kW/6.28COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 4537kW/6.28COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.40, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.40, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4537kW/6.28COP/Vanes CAPFT, !- Name 1.769339E-01, !- Coefficient1 Constant 8.033367E-04, !- Coefficient2 x -1.299649E-02, !- Coefficient3 x**2 1.160227E-01, !- Coefficient4 y -4.192731E-03, !- Coefficient5 y**2 9.339837E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 19.77, !- Minimum Value of y 31.78; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4537kW/6.28COP/Vanes EIRFT, !- Name 8.920183E-01, !- Coefficient1 Constant -1.501518E-02, !- Coefficient2 x 1.467430E-03, !- Coefficient3 x**2 -1.261335E-02, !- Coefficient4 y 8.431355E-04, !- Coefficient5 y**2 -1.426299E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 19.77, !- Minimum Value of y 31.78; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 4537kW/6.28COP/Vanes EIRFPLR, !- Name 1.718938E-01, !- Coefficient1 Constant 6.637990E-03, !- Coefficient2 x 1.666991E-05, !- Coefficient3 x**2 1.634153E-01, !- Coefficient4 y 9.517270E-01, !- Coefficient5 y**2 -7.705773E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.724674E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.39, !- Minimum Value of x 31.76, !- Maximum Value of x 0.40, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 4610kW/6.34COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 4610 kW (1311 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 4610kW/6.34COP/Vanes, !- Name 4610300, !- Reference Capacity {W} 6.34, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.27, !- Reference Leaving Condenser Water Temperature {C} 0.19129, !- Reference Chilled Water Flow Rate {m3/s} 0.24757, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 4610kW/6.34COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 4610kW/6.34COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 4610kW/6.34COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 4610kW/6.34COP/Vanes CAPFT, !- Name 8.054195E-01, !- Coefficient1 Constant -1.086306E-02, !- Coefficient2 x -1.750699E-03, !- Coefficient3 x**2 1.269252E-02, !- Coefficient4 y -3.913330E-04, !- Coefficient5 y**2 1.602126E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.15, !- Minimum Value of y 34.76; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 4610kW/6.34COP/Vanes EIRFT, !- Name 6.849506E-01, !- Coefficient1 Constant -4.909207E-02, !- Coefficient2 x -8.308126E-04, !- Coefficient3 x**2 1.199218E-02, !- Coefficient4 y 1.642681E-04, !- Coefficient5 y**2 6.761764E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.15, !- Minimum Value of y 34.76; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 4610kW/6.34COP/Vanes EIRFPLR, !- Name -7.113458E-02, !- Coefficient1 Constant 1.278078E-02, !- Coefficient2 x -1.151552E-05, !- Coefficient3 x**2 1.228548E+00, !- Coefficient4 y -1.065066E+00, !- Coefficient5 y**2 -1.209695E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 8.979381E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.58, !- Minimum Value of x 31.27, !- Maximum Value of x 0.20, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes ! Manufacturer = Carrier, Model Line = 19EX ! Reference Capacity = 4667 kW (1327 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes, !- Name 4666600, !- Reference Capacity {W} 6.16, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.94, !- Reference Leaving Condenser Water Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.40, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.40, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes CAPFT, !- Name -8.915725E-02, !- Coefficient1 Constant -6.491327E-02, !- Coefficient2 x -3.356680E-03, !- Coefficient3 x**2 1.108472E-01, !- Coefficient4 y -3.034272E-03, !- Coefficient5 y**2 5.648135E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 17.77, !- Minimum Value of y 31.94; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes EIRFT, !- Name 5.382224E-01, !- Coefficient1 Constant 2.679869E-03, !- Coefficient2 x 4.713078E-04, !- Coefficient3 x**2 7.901564E-03, !- Coefficient4 y 4.567647E-04, !- Coefficient5 y**2 -1.386795E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 17.77, !- Minimum Value of y 31.94; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes EIRFPLR, !- Name 5.967050E-01, !- Coefficient1 Constant -1.472448E-02, !- Coefficient2 x 4.216331E-05, !- Coefficient3 x**2 3.682618E-01, !- Coefficient4 y -2.379422E-01, !- Coefficient5 y**2 1.262951E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 2.973345E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.46, !- Minimum Value of x 31.92, !- Maximum Value of x 0.40, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Trane CVHF 4677kW/6.27COP/Vanes ! Manufacturer = Trane, Model Line = CVHF ! Reference Capacity = 4677 kW (1330 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CVHF 4677kW/6.27COP/Vanes, !- Name 4677100, !- Reference Capacity {W} 6.27, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.94, !- Reference Leaving Condenser Water Temperature {C} 0.20138, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CVHF 4677kW/6.27COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CVHF 4677kW/6.27COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CVHF 4677kW/6.27COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.41, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.41, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 4677kW/6.27COP/Vanes CAPFT, !- Name 8.138295E-01, !- Coefficient1 Constant -2.315871E-02, !- Coefficient2 x 6.181089E-03, !- Coefficient3 x**2 8.639578E-03, !- Coefficient4 y -1.807173E-04, !- Coefficient5 y**2 -5.015921E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 17.51, !- Minimum Value of y 31.94; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CVHF 4677kW/6.27COP/Vanes EIRFT, !- Name 8.371931E-01, !- Coefficient1 Constant -1.837487E-02, !- Coefficient2 x 3.992101E-03, !- Coefficient3 x**2 -8.582353E-03, !- Coefficient4 y 6.821892E-04, !- Coefficient5 y**2 -1.443699E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 17.51, !- Minimum Value of y 31.94; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CVHF 4677kW/6.27COP/Vanes EIRFPLR, !- Name -3.243462E-01, !- Coefficient1 Constant 1.463635E-02, !- Coefficient2 x -8.320365E-05, !- Coefficient3 x**2 1.978667E+00, !- Coefficient4 y -2.019795E+00, !- Coefficient5 y**2 -1.072468E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.320583E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.43, !- Minimum Value of x 32.04, !- Maximum Value of x 0.41, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YK 4966kW/6.05COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4966 kW (1412 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 4966kW/6.05COP/Vanes, !- Name 4965500, !- Reference Capacity {W} 6.05, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.33, !- Reference Leaving Condenser Water Temperature {C} 0.21198, !- Reference Chilled Water Flow Rate {m3/s} 0.26498, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 4966kW/6.05COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 4966kW/6.05COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 4966kW/6.05COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.12, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.12, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4966kW/6.05COP/Vanes CAPFT, !- Name 4.672989E-01, !- Coefficient1 Constant -3.881077E-02, !- Coefficient2 x -2.462607E-04, !- Coefficient3 x**2 3.605453E-02, !- Coefficient4 y -8.010103E-04, !- Coefficient5 y**2 2.190852E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.07, !- Minimum Value of y 35.01; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4966kW/6.05COP/Vanes EIRFT, !- Name 8.536699E-01, !- Coefficient1 Constant 3.487393E-04, !- Coefficient2 x 1.120994E-03, !- Coefficient3 x**2 -9.358730E-03, !- Coefficient4 y 6.197745E-04, !- Coefficient5 y**2 -1.128239E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.07, !- Minimum Value of y 35.01; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 4966kW/6.05COP/Vanes EIRFPLR, !- Name 2.620385E-01, !- Coefficient1 Constant 1.209698E-02, !- Coefficient2 x 8.014586E-06, !- Coefficient3 x**2 -1.102167E-01, !- Coefficient4 y 1.117062E+00, !- Coefficient5 y**2 -1.249449E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.641246E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.32, !- Minimum Value of x 31.33, !- Maximum Value of x 0.12, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YK 4969kW/7.14COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4969 kW (1413 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 4969kW/7.14COP/Vanes, !- Name 4969000, !- Reference Capacity {W} 7.14, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.23, !- Reference Leaving Condenser Water Temperature {C} 0.17665, !- Reference Chilled Water Flow Rate {m3/s} 0.26498, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 4969kW/7.14COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 4969kW/7.14COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 4969kW/7.14COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.16, !- Minimum Part Load Ratio 1.07, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.16, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4969kW/7.14COP/Vanes CAPFT, !- Name 2.811615E-03, !- Coefficient1 Constant -1.788883E-01, !- Coefficient2 x -4.640550E-03, !- Coefficient3 x**2 1.472024E-01, !- Coefficient4 y -4.625224E-03, !- Coefficient5 y**2 1.108352E-02, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.57, !- Minimum Value of y 34.55; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4969kW/7.14COP/Vanes EIRFT, !- Name 6.916913E-01, !- Coefficient1 Constant -4.760980E-02, !- Coefficient2 x 1.310678E-03, !- Coefficient3 x**2 1.226839E-02, !- Coefficient4 y 1.561278E-04, !- Coefficient5 y**2 1.331849E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.57, !- Minimum Value of y 34.55; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 4969kW/7.14COP/Vanes EIRFPLR, !- Name 3.289463E-01, !- Coefficient1 Constant 6.642124E-03, !- Coefficient2 x -2.636011E-05, !- Coefficient3 x**2 -4.910925E-01, !- Coefficient4 y 1.639401E+00, !- Coefficient5 y**2 -5.204880E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.960251E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.43, !- Minimum Value of x 31.23, !- Maximum Value of x 0.16, !- Minimum Value of y 1.07; !- Maximum Value of y ! ReformEIRChiller York YK 4969kW/7.07COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 4969 kW (1413 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 4969kW/7.07COP/Vanes, !- Name 4969000, !- Reference Capacity {W} 7.07, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.23, !- Reference Leaving Condenser Water Temperature {C} 0.17665, !- Reference Chilled Water Flow Rate {m3/s} 0.26498, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 4969kW/7.07COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 4969kW/7.07COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 4969kW/7.07COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.16, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.16, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4969kW/7.07COP/Vanes CAPFT, !- Name -1.238406E+00, !- Coefficient1 Constant -2.167075E-01, !- Coefficient2 x -9.525838E-03, !- Coefficient3 x**2 2.481491E-01, !- Coefficient4 y -6.930334E-03, !- Coefficient5 y**2 1.495974E-02, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.30, !- Minimum Value of y 34.56; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 4969kW/7.07COP/Vanes EIRFT, !- Name 7.217115E-01, !- Coefficient1 Constant -3.596981E-02, !- Coefficient2 x 5.327502E-04, !- Coefficient3 x**2 9.190024E-03, !- Coefficient4 y 1.694811E-04, !- Coefficient5 y**2 1.843438E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.30, !- Minimum Value of y 34.56; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 4969kW/7.07COP/Vanes EIRFPLR, !- Name 7.117270E-01, !- Coefficient1 Constant 1.022191E-03, !- Coefficient2 x 1.205226E-05, !- Coefficient3 x**2 -1.794131E+00, !- Coefficient4 y 3.295736E+00, !- Coefficient5 y**2 -1.552001E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.207188E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.41, !- Minimum Value of x 31.23, !- Maximum Value of x 0.16, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes ! Manufacturer = Carrier, Model Line = 19EX ! Reference Capacity = 4997 kW (1421 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 2,300V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes, !- Name 4997200, !- Reference Capacity {W} 6.40, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 32.28, !- Reference Leaving Condenser Water Temperature {C} 0.19558, !- Reference Chilled Water Flow Rate {m3/s} 0.24605, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.40, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.40, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes CAPFT, !- Name -2.686142E-01, !- Coefficient1 Constant -4.640249E-02, !- Coefficient2 x -7.791139E-03, !- Coefficient3 x**2 1.116057E-01, !- Coefficient4 y -3.040750E-03, !- Coefficient5 y**2 6.823316E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 17.18, !- Minimum Value of y 32.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes EIRFT, !- Name 7.502378E-01, !- Coefficient1 Constant -8.546174E-03, !- Coefficient2 x 3.952892E-03, !- Coefficient3 x**2 -7.194001E-03, !- Coefficient4 y 8.754798E-04, !- Coefficient5 y**2 -2.523240E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 7.78, !- Maximum Value of x 17.18, !- Minimum Value of y 32.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes EIRFPLR, !- Name 6.778244E-01, !- Coefficient1 Constant -1.674571E-02, !- Coefficient2 x -1.069925E-05, !- Coefficient3 x**2 2.261951E-01, !- Coefficient4 y -1.572357E-02, !- Coefficient5 y**2 1.714268E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 1.072291E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.60, !- Minimum Value of x 32.26, !- Maximum Value of x 0.40, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes ! Manufacturer = Carrier, Model Line = 19EX ! Reference Capacity = 5148 kW (1464 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes, !- Name 5148400, !- Reference Capacity {W} 6.34, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.70, !- Reference Leaving Condenser Water Temperature {C} 0.18283, !- Reference Chilled Water Flow Rate {m3/s} 0.25526, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes CAPFT, !- Name -1.011196E-01, !- Coefficient1 Constant -1.084580E-02, !- Coefficient2 x -6.804354E-03, !- Coefficient3 x**2 8.869769E-02, !- Coefficient4 y -2.343514E-03, !- Coefficient5 y**2 4.796955E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.87, !- Minimum Value of y 34.96; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes EIRFT, !- Name 6.139244E-01, !- Coefficient1 Constant 1.237345E-02, !- Coefficient2 x 8.199573E-04, !- Coefficient3 x**2 6.805078E-04, !- Coefficient4 y 6.221886E-04, !- Coefficient5 y**2 -1.797776E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 20.87, !- Minimum Value of y 34.96; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes EIRFPLR, !- Name 2.989462E-01, !- Coefficient1 Constant -1.736649E-02, !- Coefficient2 x 1.922011E-05, !- Coefficient3 x**2 1.534120E+00, !- Coefficient4 y -1.596922E+00, !- Coefficient5 y**2 1.630424E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 7.776844E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.68, !- Minimum Value of x 31.70, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YK 5170kW/7.15COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 5170 kW (1470 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 5170kW/7.15COP/Vanes, !- Name 5169500, !- Reference Capacity {W} 7.15, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.43, !- Reference Leaving Condenser Water Temperature {C} 0.17665, !- Reference Chilled Water Flow Rate {m3/s} 0.26498, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 5170kW/7.15COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 5170kW/7.15COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 5170kW/7.15COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.15, !- Minimum Part Load Ratio 1.07, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.15, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 5170kW/7.15COP/Vanes CAPFT, !- Name -1.064004E+00, !- Coefficient1 Constant -2.233223E-01, !- Coefficient2 x -7.441205E-03, !- Coefficient3 x**2 2.281866E-01, !- Coefficient4 y -6.268922E-03, !- Coefficient5 y**2 1.390983E-02, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.30, !- Minimum Value of y 34.88; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 5170kW/7.15COP/Vanes EIRFT, !- Name 5.056958E-01, !- Coefficient1 Constant -2.296962E-02, !- Coefficient2 x -1.632795E-03, !- Coefficient3 x**2 2.230325E-02, !- Coefficient4 y -1.548393E-04, !- Coefficient5 y**2 8.256108E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.30, !- Minimum Value of y 34.88; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 5170kW/7.15COP/Vanes EIRFPLR, !- Name 7.949169E-01, !- Coefficient1 Constant 9.107817E-04, !- Coefficient2 x 3.483284E-05, !- Coefficient3 x**2 -2.015044E+00, !- Coefficient4 y 3.394622E+00, !- Coefficient5 y**2 -2.646463E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.152785E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.42, !- Minimum Value of x 31.43, !- Maximum Value of x 0.15, !- Minimum Value of y 1.07; !- Maximum Value of y ! ReformEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes ! Manufacturer = Carrier, Model Line = 19EX ! Reference Capacity = 5208 kW (1481 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 4,160V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes, !- Name 5208200, !- Reference Capacity {W} 6.88, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.75, !- Reference Leaving Condenser Water Temperature {C} 0.18283, !- Reference Chilled Water Flow Rate {m3/s} 0.25293, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.04, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes CAPFT, !- Name 1.254471E-01, !- Coefficient1 Constant -1.028175E-01, !- Coefficient2 x -4.242764E-03, !- Coefficient3 x**2 9.372985E-02, !- Coefficient4 y -2.733787E-03, !- Coefficient5 y**2 7.161423E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.08, !- Minimum Value of y 35.31; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes EIRFT, !- Name 5.363910E-01, !- Coefficient1 Constant -8.005283E-04, !- Coefficient2 x -2.759052E-05, !- Coefficient3 x**2 7.405978E-03, !- Coefficient4 y 4.159925E-04, !- Coefficient5 y**2 -8.731268E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.08, !- Minimum Value of y 35.31; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes EIRFPLR, !- Name 3.759577E-01, !- Coefficient1 Constant -1.540144E-02, !- Coefficient2 x 6.020001E-05, !- Coefficient3 x**2 1.240869E+00, !- Coefficient4 y -1.267595E+00, !- Coefficient5 y**2 1.195934E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 6.977113E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.69, !- Minimum Value of x 31.75, !- Maximum Value of x 0.20, !- Minimum Value of y 1.04; !- Maximum Value of y ! ReformEIRChiller York YK 5465kW/6.94COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 5465 kW (1554 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 120V-1PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 5465kW/6.94COP/Vanes, !- Name 5464900, !- Reference Capacity {W} 6.94, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.56, !- Reference Leaving Condenser Water Temperature {C} 0.18296, !- Reference Chilled Water Flow Rate {m3/s} 0.27444, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 5465kW/6.94COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 5465kW/6.94COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 5465kW/6.94COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.06, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 5465kW/6.94COP/Vanes CAPFT, !- Name -1.004987E+00, !- Coefficient1 Constant -2.020843E-01, !- Coefficient2 x -5.768143E-03, !- Coefficient3 x**2 2.096972E-01, !- Coefficient4 y -5.537991E-03, !- Coefficient5 y**2 1.195948E-02, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.03, !- Minimum Value of y 34.99; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 5465kW/6.94COP/Vanes EIRFT, !- Name 5.844853E-01, !- Coefficient1 Constant -4.786810E-02, !- Coefficient2 x 7.315110E-04, !- Coefficient3 x**2 2.167930E-02, !- Coefficient4 y -8.850313E-05, !- Coefficient5 y**2 5.184829E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.03, !- Minimum Value of y 34.99; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 5465kW/6.94COP/Vanes EIRFPLR, !- Name 8.903067E-01, !- Coefficient1 Constant -1.058205E-03, !- Coefficient2 x 4.591261E-05, !- Coefficient3 x**2 -2.096863E+00, !- Coefficient4 y 3.368956E+00, !- Coefficient5 y**2 -1.380690E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.130250E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.40, !- Minimum Value of x 31.56, !- Maximum Value of x 0.14, !- Minimum Value of y 1.06; !- Maximum Value of y ! ReformEIRChiller York YK 5549kW/6.50COP/Vanes ! Manufacturer = York, Model Line = YK ! Reference Capacity = 5549 kW (1578 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YK 5549kW/6.50COP/Vanes, !- Name 5549300, !- Reference Capacity {W} 6.50, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 31.69, !- Reference Leaving Condenser Water Temperature {C} 0.18296, !- Reference Chilled Water Flow Rate {m3/s} 0.27444, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YK 5549kW/6.50COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YK 5549kW/6.50COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YK 5549kW/6.50COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.14, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.14, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 5549kW/6.50COP/Vanes CAPFT, !- Name -8.620027E-01, !- Coefficient1 Constant 6.692796E-03, !- Coefficient2 x -4.020156E-03, !- Coefficient3 x**2 1.550060E-01, !- Coefficient4 y -3.586968E-03, !- Coefficient5 y**2 3.027128E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.38, !- Minimum Value of y 31.70; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YK 5549kW/6.50COP/Vanes EIRFT, !- Name 3.302868E-01, !- Coefficient1 Constant -8.254126E-02, !- Coefficient2 x 6.087519E-03, !- Coefficient3 x**2 4.875213E-02, !- Coefficient4 y -5.839053E-04, !- Coefficient5 y**2 -5.006909E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 18.38, !- Minimum Value of y 31.70; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YK 5549kW/6.50COP/Vanes EIRFPLR, !- Name 5.179058E-01, !- Coefficient1 Constant -2.419877E-03, !- Coefficient2 x 4.858626E-05, !- Coefficient3 x**2 -8.910290E-01, !- Coefficient4 y 2.272953E+00, !- Coefficient5 y**2 -3.062303E-04, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -8.631289E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.41, !- Minimum Value of x 31.69, !- Maximum Value of x 0.14, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes ! Manufacturer = Carrier, Model Line = 19FA ! Reference Capacity = 5651 kW (1607 tons) ! Compressor Type = Centrifugal, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Inlet Vanes ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes, !- Name 5651300, !- Reference Capacity {W} 5.50, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 37.89, !- Reference Leaving Condenser Water Temperature {C} 0.18927, !- Reference Chilled Water Flow Rate {m3/s} 0.18927, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.19, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.19, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes CAPFT, !- Name 9.205097E-01, !- Coefficient1 Constant -7.830750E-02, !- Coefficient2 x -4.545053E-03, !- Coefficient3 x**2 5.853135E-02, !- Coefficient4 y -2.108693E-03, !- Coefficient5 y**2 6.359267E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 26.23, !- Minimum Value of y 39.12; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes EIRFT, !- Name 8.804871E-01, !- Coefficient1 Constant 3.853907E-04, !- Coefficient2 x 2.224949E-04, !- Coefficient3 x**2 -1.337560E-02, !- Coefficient4 y 5.822842E-04, !- Coefficient5 y**2 -8.744742E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 26.23, !- Minimum Value of y 39.12; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes EIRFPLR, !- Name -1.360532E-01, !- Coefficient1 Constant 8.642703E-03, !- Coefficient2 x 3.855583E-06, !- Coefficient3 x**2 1.024034E+00, !- Coefficient4 y 6.047444E-02, !- Coefficient5 y**2 -8.947860E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 5.706602E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 31.13, !- Minimum Value of x 36.52, !- Maximum Value of x 0.19, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Multistack MS 172kW/3.67COP/None ! Manufacturer = Multistack, Model Line = MS ! Reference Capacity = 172 kW (49 tons) ! Compressor Type = Reciprocating, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 208V-3PH-60HZ ! Unloading Mechanism = None ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Multistack MS 172kW/3.67COP/None, !- Name 172300, !- Reference Capacity {W} 3.67, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 23.82, !- Reference Leaving Condenser Water Temperature {C} 0.00738, !- Reference Chilled Water Flow Rate {m3/s} 0.00959, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Multistack MS 172kW/3.67COP/None CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Multistack MS 172kW/3.67COP/None EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Multistack MS 172kW/3.67COP/None EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.40, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.40, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Multistack MS 172kW/3.67COP/None CAPFT, !- Name 1.127280E+00, !- Coefficient1 Constant 1.221754E-01, !- Coefficient2 x -4.746140E-03, !- Coefficient3 x**2 -2.833951E-02, !- Coefficient4 y 3.021524E-04, !- Coefficient5 y**2 -6.616494E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.82, !- Minimum Value of y 40.51; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Multistack MS 172kW/3.67COP/None EIRFT, !- Name 8.822430E-01, !- Coefficient1 Constant -6.747171E-02, !- Coefficient2 x 3.070641E-03, !- Coefficient3 x**2 1.073323E-02, !- Coefficient4 y 1.721572E-04, !- Coefficient5 y**2 2.401500E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 23.82, !- Minimum Value of y 40.51; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Multistack MS 172kW/3.67COP/None EIRFPLR, !- Name 4.368265E-01, !- Coefficient1 Constant -2.032253E-02, !- Coefficient2 x 1.212838E-05, !- Coefficient3 x**2 5.892153E-01, !- Coefficient4 y 4.814951E-01, !- Coefficient5 y**2 1.957982E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.971216E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.50, !- Minimum Value of x 32.21, !- Maximum Value of x 0.40, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Trane RTWA 383kW/4.17COP/Valve ! Manufacturer = Trane, Model Line = RTWA ! Reference Capacity = 383 kW (109 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = N/A ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane RTWA 383kW/4.17COP/Valve, !- Name 383300, !- Reference Capacity {W} 4.17, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 34.95, !- Reference Leaving Condenser Water Temperature {C} 0.0165, !- Reference Chilled Water Flow Rate {m3/s} 0.02063, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane RTWA 383kW/4.17COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane RTWA 383kW/4.17COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane RTWA 383kW/4.17COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.25, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.25, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTWA 383kW/4.17COP/Valve CAPFT, !- Name 1.005026E+00, !- Coefficient1 Constant 3.896773E-02, !- Coefficient2 x 9.270374E-05, !- Coefficient3 x**2 -4.346837E-03, !- Coefficient4 y -4.961570E-05, !- Coefficient5 y**2 -2.401448E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 29.19, !- Minimum Value of y 40.69; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTWA 383kW/4.17COP/Valve EIRFT, !- Name 6.171417E-01, !- Coefficient1 Constant -4.530431E-03, !- Coefficient2 x 1.108471E-03, !- Coefficient3 x**2 -3.373738E-04, !- Coefficient4 y 5.176833E-04, !- Coefficient5 y**2 -1.098531E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 29.19, !- Minimum Value of y 40.69; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane RTWA 383kW/4.17COP/Valve EIRFPLR, !- Name -1.660765E+00, !- Coefficient1 Constant 1.117605E-01, !- Coefficient2 x 4.971509E-06, !- Coefficient3 x**2 -3.472160E-02, !- Coefficient4 y 3.399869E+00, !- Coefficient5 y**2 -1.121089E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -6.984388E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.35, !- Minimum Value of x 34.95, !- Maximum Value of x 0.25, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Trane RTHB 531kW/4.83COP/Valve ! Manufacturer = Trane, Model Line = RTHB ! Reference Capacity = 531 kW (151 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane RTHB 531kW/4.83COP/Valve, !- Name 531000, !- Reference Capacity {W} 4.83, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 33.61, !- Reference Leaving Condenser Water Temperature {C} 0.0135, !- Reference Chilled Water Flow Rate {m3/s} 0.01577, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane RTHB 531kW/4.83COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane RTHB 531kW/4.83COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane RTHB 531kW/4.83COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHB 531kW/4.83COP/Valve CAPFT, !- Name 9.079958E-01, !- Coefficient1 Constant 1.147213E-02, !- Coefficient2 x 8.474223E-04, !- Coefficient3 x**2 7.750840E-03, !- Coefficient4 y -2.955319E-04, !- Coefficient5 y**2 3.620562E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 25.39, !- Minimum Value of y 34.83; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHB 531kW/4.83COP/Valve EIRFT, !- Name 3.048223E-01, !- Coefficient1 Constant 1.023123E-02, !- Coefficient2 x 2.011952E-04, !- Coefficient3 x**2 1.296369E-02, !- Coefficient4 y 4.087926E-04, !- Coefficient5 y**2 -1.374337E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 25.39, !- Minimum Value of y 34.83; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane RTHB 531kW/4.83COP/Valve EIRFPLR, !- Name 4.560311E+00, !- Coefficient1 Constant -2.031290E-01, !- Coefficient2 x 8.212225E-05, !- Coefficient3 x**2 -4.899042E+00, !- Coefficient4 y 5.087775E+00, !- Coefficient5 y**2 1.981069E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -3.673772E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 21.24, !- Minimum Value of x 33.06, !- Maximum Value of x 0.30, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Trane RTHB 538kW/5.12COP/Valve ! Manufacturer = Trane, Model Line = RTHB ! Reference Capacity = 538 kW (153 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane RTHB 538kW/5.12COP/Valve, !- Name 538000, !- Reference Capacity {W} 5.12, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 31.75, !- Reference Leaving Condenser Water Temperature {C} 0.01375, !- Reference Chilled Water Flow Rate {m3/s} 0.01956, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane RTHB 538kW/5.12COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane RTHB 538kW/5.12COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane RTHB 538kW/5.12COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHB 538kW/5.12COP/Valve CAPFT, !- Name 9.326777E-01, !- Coefficient1 Constant 2.745642E-02, !- Coefficient2 x 3.991103E-04, !- Coefficient3 x**2 1.073891E-03, !- Coefficient4 y -1.335614E-04, !- Coefficient5 y**2 1.399941E-05, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 23.52, !- Minimum Value of y 32.74; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHB 538kW/5.12COP/Valve EIRFT, !- Name 4.761769E-01, !- Coefficient1 Constant -3.860230E-03, !- Coefficient2 x 6.543433E-04, !- Coefficient3 x**2 7.029128E-03, !- Coefficient4 y 4.964676E-04, !- Coefficient5 y**2 -1.113233E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 23.52, !- Minimum Value of y 32.74; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane RTHB 538kW/5.12COP/Valve EIRFPLR, !- Name 2.185505E+00, !- Coefficient1 Constant -9.516501E-02, !- Coefficient2 x 2.591946E-05, !- Coefficient3 x**2 -1.849602E+00, !- Coefficient4 y 2.059148E+00, !- Coefficient5 y**2 9.366870E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.373917E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.71, !- Minimum Value of x 30.67, !- Maximum Value of x 0.30, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Trane RTHB 542kW/5.26COP/Valve ! Manufacturer = Trane, Model Line = RTHB ! Reference Capacity = 542 kW (154 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane RTHB 542kW/5.26COP/Valve, !- Name 541500, !- Reference Capacity {W} 5.26, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 30.89, !- Reference Leaving Condenser Water Temperature {C} 0.01363, !- Reference Chilled Water Flow Rate {m3/s} 0.01577, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane RTHB 542kW/5.26COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane RTHB 542kW/5.26COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane RTHB 542kW/5.26COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHB 542kW/5.26COP/Valve CAPFT, !- Name 9.292432E-01, !- Coefficient1 Constant 2.977220E-02, !- Coefficient2 x 4.279686E-04, !- Coefficient3 x**2 -1.825578E-04, !- Coefficient4 y -9.143496E-05, !- Coefficient5 y**2 -8.471843E-05, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 25.39, !- Minimum Value of y 34.83; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHB 542kW/5.26COP/Valve EIRFT, !- Name 2.877196E-01, !- Coefficient1 Constant -1.191161E-02, !- Coefficient2 x 7.252148E-04, !- Coefficient3 x**2 2.352346E-02, !- Coefficient4 y 2.033310E-04, !- Coefficient5 y**2 -9.517160E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 25.39, !- Minimum Value of y 34.83; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane RTHB 542kW/5.26COP/Valve EIRFPLR, !- Name 1.837065E+00, !- Coefficient1 Constant -7.719197E-02, !- Coefficient2 x -1.307430E-06, !- Coefficient3 x**2 -1.063492E+00, !- Coefficient4 y 6.874543E-01, !- Coefficient5 y**2 7.728359E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.626311E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 21.27, !- Minimum Value of x 32.23, !- Maximum Value of x 0.30, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller York YS 672kW/7.90COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 672 kW (191 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YS 672kW/7.90COP/Valve, !- Name 671600, !- Reference Capacity {W} 7.90, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 23.07, !- Reference Leaving Condenser Water Temperature {C} 0.01514, !- Reference Chilled Water Flow Rate {m3/s} 0.0241, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YS 672kW/7.90COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YS 672kW/7.90COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YS 672kW/7.90COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 672kW/7.90COP/Valve CAPFT, !- Name 9.653043E-01, !- Coefficient1 Constant 3.117948E-02, !- Coefficient2 x 4.747822E-04, !- Coefficient3 x**2 -5.778354E-03, !- Coefficient4 y -1.229225E-05, !- Coefficient5 y**2 -2.348690E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 23.07, !- Minimum Value of y 32.60; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 672kW/7.90COP/Valve EIRFT, !- Name 1.199355E-01, !- Coefficient1 Constant -6.676229E-03, !- Coefficient2 x 4.330599E-04, !- Coefficient3 x**2 4.300726E-02, !- Coefficient4 y 1.757823E-04, !- Coefficient5 y**2 -1.325426E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 23.07, !- Minimum Value of y 32.60; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YS 672kW/7.90COP/Valve EIRFPLR, !- Name 7.456160E-01, !- Coefficient1 Constant -2.835399E-02, !- Coefficient2 x 9.054026E-06, !- Coefficient3 x**2 -3.984299E-01, !- Coefficient4 y 2.016392E+00, !- Coefficient5 y**2 2.785056E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.356679E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 15.27, !- Minimum Value of x 29.58, !- Maximum Value of x 0.09, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Carrier 23XL 686kW/5.91COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 686 kW (195 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 23XL 686kW/5.91COP/Valve, !- Name 685700, !- Reference Capacity {W} 5.91, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 29.63, !- Reference Leaving Condenser Water Temperature {C} 0.0571, !- Reference Chilled Water Flow Rate {m3/s} 0.03255, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 23XL 686kW/5.91COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 23XL 686kW/5.91COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 23XL 686kW/5.91COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 686kW/5.91COP/Valve CAPFT, !- Name 1.248877E-02, !- Coefficient1 Constant -3.890734E-02, !- Coefficient2 x -4.482589E-03, !- Coefficient3 x**2 8.632797E-02, !- Coefficient4 y -2.289350E-03, !- Coefficient5 y**2 4.755520E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 17.39, !- Minimum Value of y 30.39; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 686kW/5.91COP/Valve EIRFT, !- Name 5.449412E-01, !- Coefficient1 Constant 1.058205E-02, !- Coefficient2 x 5.610010E-04, !- Coefficient3 x**2 4.494100E-04, !- Coefficient4 y 7.827776E-04, !- Coefficient5 y**2 -1.787673E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 17.39, !- Minimum Value of y 30.39; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 23XL 686kW/5.91COP/Valve EIRFPLR, !- Name 3.479846E-01, !- Coefficient1 Constant -1.132553E-03, !- Coefficient2 x -5.082473E-05, !- Coefficient3 x**2 1.944353E-01, !- Coefficient4 y 6.340539E-01, !- Coefficient5 y**2 3.457251E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.025127E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.21, !- Minimum Value of x 29.63, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller Trane RTHC 707kW/7.77COP/Valve ! Manufacturer = Trane, Model Line = RTHC ! Reference Capacity = 707 kW (201 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane RTHC 707kW/7.77COP/Valve, !- Name 706800, !- Reference Capacity {W} 7.77, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 21.40, !- Reference Leaving Condenser Water Temperature {C} 0.04921, !- Reference Chilled Water Flow Rate {m3/s} 0.03268, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane RTHC 707kW/7.77COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane RTHC 707kW/7.77COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane RTHC 707kW/7.77COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.28, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.28, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHC 707kW/7.77COP/Valve CAPFT, !- Name 9.650754E-01, !- Coefficient1 Constant 3.116480E-02, !- Coefficient2 x 6.283163E-04, !- Coefficient3 x**2 -5.158701E-03, !- Coefficient4 y -5.981975E-05, !- Coefficient5 y**2 -1.623288E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 11.11, !- Maximum Value of x 21.40, !- Minimum Value of y 30.31; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHC 707kW/7.77COP/Valve EIRFT, !- Name 5.777406E-01, !- Coefficient1 Constant 1.234139E-02, !- Coefficient2 x -3.550380E-04, !- Coefficient3 x**2 9.871073E-03, !- Coefficient4 y 7.225565E-04, !- Coefficient5 y**2 -1.521275E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 11.11, !- Maximum Value of x 21.40, !- Minimum Value of y 30.31; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane RTHC 707kW/7.77COP/Valve EIRFPLR, !- Name 4.383290E+00, !- Coefficient1 Constant -1.536137E-01, !- Coefficient2 x -3.825029E-05, !- Coefficient3 x**2 -4.911866E+00, !- Coefficient4 y 3.331498E+00, !- Coefficient5 y**2 1.554529E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.824968E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 24.98, !- Minimum Value of x 30.00, !- Maximum Value of x 0.28, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller York YS 756kW/7.41COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 756 kW (215 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-123, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YS 756kW/7.41COP/Valve, !- Name 756000, !- Reference Capacity {W} 7.41, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 20.05, !- Reference Leaving Condenser Water Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YS 756kW/7.41COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YS 756kW/7.41COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YS 756kW/7.41COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.11, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.11, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 756kW/7.41COP/Valve CAPFT, !- Name 9.642889E-01, !- Coefficient1 Constant 2.866413E-02, !- Coefficient2 x 3.109129E-04, !- Coefficient3 x**2 -5.631322E-03, !- Coefficient4 y -3.762572E-05, !- Coefficient5 y**2 -5.237190E-05, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.05, !- Minimum Value of y 28.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 756kW/7.41COP/Valve EIRFT, !- Name 6.354619E-01, !- Coefficient1 Constant -1.370325E-02, !- Coefficient2 x 1.593968E-03, !- Coefficient3 x**2 1.156358E-02, !- Coefficient4 y 9.449231E-04, !- Coefficient5 y**2 -1.967502E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 20.05, !- Minimum Value of y 28.28; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YS 756kW/7.41COP/Valve EIRFPLR, !- Name -1.261074E+00, !- Coefficient1 Constant 1.245378E-01, !- Coefficient2 x -1.028560E-04, !- Coefficient3 x**2 6.936120E-01, !- Coefficient4 y 5.828942E-01, !- Coefficient5 y**2 -1.203584E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 9.427000E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.81, !- Minimum Value of x 26.55, !- Maximum Value of x 0.11, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller York YS 781kW/5.42COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 781 kW (222 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YS 781kW/5.42COP/Valve, !- Name 780700, !- Reference Capacity {W} 5.42, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 35.29, !- Reference Leaving Condenser Water Temperature {C} 0.01893, !- Reference Chilled Water Flow Rate {m3/s} 0.03785, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YS 781kW/5.42COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YS 781kW/5.42COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YS 781kW/5.42COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 781kW/5.42COP/Valve CAPFT, !- Name 1.033403E+00, !- Coefficient1 Constant 3.515774E-02, !- Coefficient2 x 4.288264E-04, !- Coefficient3 x**2 -5.737406E-03, !- Coefficient4 y -2.647149E-05, !- Coefficient5 y**2 -2.222927E-04, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.31, !- Minimum Value of y 41.08; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 781kW/5.42COP/Valve EIRFT, !- Name 4.008316E-01, !- Coefficient1 Constant -6.141937E-03, !- Coefficient2 x 8.113800E-04, !- Coefficient3 x**2 5.982224E-03, !- Coefficient4 y 5.345503E-04, !- Coefficient5 y**2 -1.142919E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 21.31, !- Minimum Value of y 41.08; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YS 781kW/5.42COP/Valve EIRFPLR, !- Name 5.519460E-01, !- Coefficient1 Constant -1.406889E-02, !- Coefficient2 x 3.843199E-06, !- Coefficient3 x**2 7.950267E-02, !- Coefficient4 y 8.798848E-01, !- Coefficient5 y**2 1.379480E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -5.070156E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 17.58, !- Minimum Value of x 35.29, !- Maximum Value of x 0.09, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Carrier 23XL 830kW/6.97COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 830 kW (236 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 23XL 830kW/6.97COP/Valve, !- Name 829900, !- Reference Capacity {W} 6.97, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 28.67, !- Reference Leaving Condenser Water Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.04744, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 23XL 830kW/6.97COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 23XL 830kW/6.97COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 23XL 830kW/6.97COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 830kW/6.97COP/Valve CAPFT, !- Name 7.593802E-01, !- Coefficient1 Constant 3.128246E-03, !- Coefficient2 x -2.461755E-04, !- Coefficient3 x**2 1.648515E-02, !- Coefficient4 y -3.342693E-04, !- Coefficient5 y**2 2.498119E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.74, !- Minimum Value of y 28.78; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 830kW/6.97COP/Valve EIRFT, !- Name 3.680542E-01, !- Coefficient1 Constant -1.666432E-02, !- Coefficient2 x -2.427956E-04, !- Coefficient3 x**2 2.515814E-02, !- Coefficient4 y -4.357417E-05, !- Coefficient5 y**2 1.578686E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.74, !- Minimum Value of y 28.78; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 23XL 830kW/6.97COP/Valve EIRFPLR, !- Name 8.035259E-01, !- Coefficient1 Constant -2.731638E-02, !- Coefficient2 x 3.311687E-05, !- Coefficient3 x**2 -3.801212E-01, !- Coefficient4 y 1.805184E+00, !- Coefficient5 y**2 2.602604E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.216514E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 15.18, !- Minimum Value of x 28.64, !- Maximum Value of x 0.20, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Carrier 23XL 862kW/6.11COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 862 kW (245 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 23XL 862kW/6.11COP/Valve, !- Name 861500, !- Reference Capacity {W} 6.11, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 29.47, !- Reference Leaving Condenser Water Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.04296, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 23XL 862kW/6.11COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 23XL 862kW/6.11COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 23XL 862kW/6.11COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 862kW/6.11COP/Valve CAPFT, !- Name -2.979107E-01, !- Coefficient1 Constant -5.151176E-02, !- Coefficient2 x -3.383830E-03, !- Coefficient3 x**2 1.108248E-01, !- Coefficient4 y -2.569743E-03, !- Coefficient5 y**2 3.803707E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 16.41, !- Minimum Value of y 29.48; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 862kW/6.11COP/Valve EIRFT, !- Name 6.091020E-01, !- Coefficient1 Constant -1.121376E-02, !- Coefficient2 x 1.911380E-03, !- Coefficient3 x**2 3.134795E-03, !- Coefficient4 y 7.602337E-04, !- Coefficient5 y**2 -1.864480E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 16.41, !- Minimum Value of y 29.48; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 23XL 862kW/6.11COP/Valve EIRFPLR, !- Name 8.107206E-01, !- Coefficient1 Constant -2.005785E-02, !- Coefficient2 x -4.533858E-05, !- Coefficient3 x**2 -9.361992E-01, !- Coefficient4 y 2.154755E+00, !- Coefficient5 y**2 2.196099E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.048282E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.70, !- Minimum Value of x 29.47, !- Maximum Value of x 0.20, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Carrier 23XL 862kW/6.84COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 862 kW (245 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 23XL 862kW/6.84COP/Valve, !- Name 861500, !- Reference Capacity {W} 6.84, !- Reference COP {W/W} 9.69, !- Reference Leaving Chilled Water Temperature {C} 29.39, !- Reference Leaving Condenser Water Temperature {C} 0.06782, !- Reference Chilled Water Flow Rate {m3/s} 0.04296, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 23XL 862kW/6.84COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 23XL 862kW/6.84COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 23XL 862kW/6.84COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 862kW/6.84COP/Valve CAPFT, !- Name -3.092995E-01, !- Coefficient1 Constant -5.286556E-02, !- Coefficient2 x -3.325673E-03, !- Coefficient3 x**2 1.124372E-01, !- Coefficient4 y -2.612023E-03, !- Coefficient5 y**2 3.825379E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 16.41, !- Minimum Value of y 29.48; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 862kW/6.84COP/Valve EIRFT, !- Name 6.678615E-01, !- Coefficient1 Constant -9.383184E-03, !- Coefficient2 x 2.032594E-03, !- Coefficient3 x**2 3.679404E-03, !- Coefficient4 y 8.601638E-04, !- Coefficient5 y**2 -2.160177E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 16.41, !- Minimum Value of y 29.48; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 23XL 862kW/6.84COP/Valve EIRFPLR, !- Name 8.851376E-01, !- Coefficient1 Constant -3.243560E-02, !- Coefficient2 x 1.524188E-05, !- Coefficient3 x**2 -4.919407E-01, !- Coefficient4 y 1.397112E+00, !- Coefficient5 y**2 3.165504E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -7.803717E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 19.41, !- Minimum Value of x 29.39, !- Maximum Value of x 0.30, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Carrier 23XL 865kW/6.05COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 865 kW (246 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 23XL 865kW/6.05COP/Valve, !- Name 865100, !- Reference Capacity {W} 6.05, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 31.63, !- Reference Leaving Condenser Water Temperature {C} 0.03716, !- Reference Chilled Water Flow Rate {m3/s} 0.04366, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 23XL 865kW/6.05COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 23XL 865kW/6.05COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 23XL 865kW/6.05COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.03, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 865kW/6.05COP/Valve CAPFT, !- Name 4.094927E-01, !- Coefficient1 Constant -2.603658E-02, !- Coefficient2 x -3.192164E-03, !- Coefficient3 x**2 3.484958E-02, !- Coefficient4 y -6.572290E-04, !- Coefficient5 y**2 2.194642E-03, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 16.50, !- Minimum Value of y 35.26; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 865kW/6.05COP/Valve EIRFT, !- Name 5.716056E-01, !- Coefficient1 Constant 1.224643E-02, !- Coefficient2 x 5.618829E-04, !- Coefficient3 x**2 -5.486870E-03, !- Coefficient4 y 7.739394E-04, !- Coefficient5 y**2 -1.685380E-03, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 16.50, !- Minimum Value of y 35.26; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 23XL 865kW/6.05COP/Valve EIRFPLR, !- Name -1.633484E-01, !- Coefficient1 Constant 2.429348E-02, !- Coefficient2 x -1.563508E-05, !- Coefficient3 x**2 1.196860E+00, !- Coefficient4 y -8.284241E-01, !- Coefficient5 y**2 -2.352693E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 7.855871E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.66, !- Minimum Value of x 31.63, !- Maximum Value of x 0.20, !- Minimum Value of y 1.03; !- Maximum Value of y ! ReformEIRChiller York YS 879kW/5.82COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 879 kW (250 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YS 879kW/5.82COP/Valve, !- Name 879100, !- Reference Capacity {W} 5.82, !- Reference COP {W/W} 4.44, !- Reference Leaving Chilled Water Temperature {C} 31.32, !- Reference Leaving Condenser Water Temperature {C} 0.03785, !- Reference Chilled Water Flow Rate {m3/s} 0.04732, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YS 879kW/5.82COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YS 879kW/5.82COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YS 879kW/5.82COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 879kW/5.82COP/Valve CAPFT, !- Name 1.043132E+00, !- Coefficient1 Constant 3.207323E-02, !- Coefficient2 x -3.372567E-04, !- Coefficient3 x**2 -1.802731E-03, !- Coefficient4 y -1.730238E-04, !- Coefficient5 y**2 3.613008E-04, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 18.15, !- Minimum Value of y 35.12; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 879kW/5.82COP/Valve EIRFT, !- Name 5.260798E-01, !- Coefficient1 Constant -4.729537E-03, !- Coefficient2 x 1.121823E-03, !- Coefficient3 x**2 4.291045E-03, !- Coefficient4 y 5.493614E-04, !- Coefficient5 y**2 -1.453233E-03, !- Coefficient6 x*y 3.33, !- Minimum Value of x 7.78, !- Maximum Value of x 18.15, !- Minimum Value of y 35.12; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YS 879kW/5.82COP/Valve EIRFPLR, !- Name 3.727519E-01, !- Coefficient1 Constant 1.350521E-04, !- Coefficient2 x 7.654504E-07, !- Coefficient3 x**2 1.088683E-02, !- Coefficient4 y 1.106991E+00, !- Coefficient5 y**2 -1.844203E-04, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -4.899729E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 16.21, !- Minimum Value of x 31.32, !- Maximum Value of x 0.10, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller Trane RTHC 1009kW/5.37COP/Valve ! Manufacturer = Trane, Model Line = RTHC ! Reference Capacity = 1009 kW (287 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane RTHC 1009kW/5.37COP/Valve, !- Name 1009200, !- Reference Capacity {W} 5.37, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 31.06, !- Reference Leaving Condenser Water Temperature {C} 0.03186, !- Reference Chilled Water Flow Rate {m3/s} 0.04618, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane RTHC 1009kW/5.37COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane RTHC 1009kW/5.37COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane RTHC 1009kW/5.37COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHC 1009kW/5.37COP/Valve CAPFT, !- Name 1.207602E+00, !- Coefficient1 Constant 3.634622E-02, !- Coefficient2 x 6.331495E-04, !- Coefficient3 x**2 -1.093985E-02, !- Coefficient4 y -4.376284E-05, !- Coefficient5 y**2 -2.763827E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 26.58, !- Minimum Value of y 31.91; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHC 1009kW/5.37COP/Valve EIRFT, !- Name 4.985801E-01, !- Coefficient1 Constant 2.197522E-02, !- Coefficient2 x 8.236831E-04, !- Coefficient3 x**2 -1.956953E-02, !- Coefficient4 y 1.366952E-03, !- Coefficient5 y**2 -2.067504E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 26.58, !- Minimum Value of y 31.91; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane RTHC 1009kW/5.37COP/Valve EIRFPLR, !- Name 1.618518E+00, !- Coefficient1 Constant -6.247569E-02, !- Coefficient2 x 2.022982E-04, !- Coefficient3 x**2 -1.604864E+00, !- Coefficient4 y 3.518625E+00, !- Coefficient5 y**2 5.149642E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.383742E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.20, !- Minimum Value of x 31.03, !- Maximum Value of x 0.30, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Trane RTHB 1051kW/5.05COP/Valve ! Manufacturer = Trane, Model Line = RTHB ! Reference Capacity = 1051 kW (299 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = N/A ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane RTHB 1051kW/5.05COP/Valve, !- Name 1051400, !- Reference Capacity {W} 5.05, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 34.77, !- Reference Leaving Condenser Water Temperature {C} 0.04527, !- Reference Chilled Water Flow Rate {m3/s} 0.05659, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane RTHB 1051kW/5.05COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane RTHB 1051kW/5.05COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane RTHB 1051kW/5.05COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHB 1051kW/5.05COP/Valve CAPFT, !- Name 9.638196E-01, !- Coefficient1 Constant 3.356030E-02, !- Coefficient2 x -6.697810E-05, !- Coefficient3 x**2 -3.142817E-03, !- Coefficient4 y -6.684016E-05, !- Coefficient5 y**2 1.841742E-05, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 28.94, !- Minimum Value of y 40.58; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHB 1051kW/5.05COP/Valve EIRFT, !- Name 4.638880E-01, !- Coefficient1 Constant 7.313353E-04, !- Coefficient2 x 1.440483E-03, !- Coefficient3 x**2 3.400471E-03, !- Coefficient4 y 6.072397E-04, !- Coefficient5 y**2 -1.656400E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 28.94, !- Minimum Value of y 40.58; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane RTHB 1051kW/5.05COP/Valve EIRFPLR, !- Name -2.132575E+01, !- Coefficient1 Constant 7.315041E-01, !- Coefficient2 x 1.435460E-05, !- Coefficient3 x**2 1.774494E+01, !- Coefficient4 y 5.234092E+00, !- Coefficient5 y**2 -7.325017E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -6.363903E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 30.63, !- Minimum Value of x 34.77, !- Maximum Value of x 0.20, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Carrier 23XL 1062kW/5.50COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 1062 kW (302 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = N/A ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 23XL 1062kW/5.50COP/Valve, !- Name 1062000, !- Reference Capacity {W} 5.50, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 34.70, !- Reference Leaving Condenser Water Temperature {C} 0.04573, !- Reference Chilled Water Flow Rate {m3/s} 0.05716, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 23XL 1062kW/5.50COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 23XL 1062kW/5.50COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 23XL 1062kW/5.50COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 1062kW/5.50COP/Valve CAPFT, !- Name 1.054485E+00, !- Coefficient1 Constant 1.015650E-02, !- Coefficient2 x -4.899041E-03, !- Coefficient3 x**2 -3.792726E-03, !- Coefficient4 y -3.699876E-04, !- Coefficient5 y**2 2.891276E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 10.00, !- Maximum Value of x 26.44, !- Minimum Value of y 35.10; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 1062kW/5.50COP/Valve EIRFT, !- Name 1.369592E-01, !- Coefficient1 Constant -5.681693E-03, !- Coefficient2 x 2.795150E-04, !- Coefficient3 x**2 2.407603E-02, !- Coefficient4 y 2.142516E-04, !- Coefficient5 y**2 -8.850727E-04, !- Coefficient6 x*y 6.67, !- Minimum Value of x 10.00, !- Maximum Value of x 26.44, !- Minimum Value of y 35.10; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 23XL 1062kW/5.50COP/Valve EIRFPLR, !- Name 1.385765E+00, !- Coefficient1 Constant -3.549685E-02, !- Coefficient2 x -4.110930E-06, !- Coefficient3 x**2 -7.678018E-01, !- Coefficient4 y 7.228808E-01, !- Coefficient5 y**2 3.573245E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -3.442173E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 30.60, !- Minimum Value of x 34.70, !- Maximum Value of x 0.20, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Trane RTHC 1066kW/5.73COP/Valve ! Manufacturer = Trane, Model Line = RTHC ! Reference Capacity = 1066 kW (303 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 480V-3PH-60Hz ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane RTHC 1066kW/5.73COP/Valve, !- Name 1065500, !- Reference Capacity {W} 5.73, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 32.06, !- Reference Leaving Condenser Water Temperature {C} 0.05142, !- Reference Chilled Water Flow Rate {m3/s} 0.04416, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane RTHC 1066kW/5.73COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane RTHC 1066kW/5.73COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane RTHC 1066kW/5.73COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.30, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.30, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHC 1066kW/5.73COP/Valve CAPFT, !- Name 1.132006E+00, !- Coefficient1 Constant 5.350322E-02, !- Coefficient2 x 4.674089E-04, !- Coefficient3 x**2 -9.696767E-03, !- Coefficient4 y -1.092622E-05, !- Coefficient5 y**2 -6.864058E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 27.08, !- Minimum Value of y 33.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHC 1066kW/5.73COP/Valve EIRFT, !- Name 1.270619E+00, !- Coefficient1 Constant 2.714576E-02, !- Coefficient2 x 1.314069E-03, !- Coefficient3 x**2 -7.074240E-02, !- Coefficient4 y 2.188506E-03, !- Coefficient5 y**2 -2.478095E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 27.08, !- Minimum Value of y 33.00; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane RTHC 1066kW/5.73COP/Valve EIRFPLR, !- Name -5.639468E-01, !- Coefficient1 Constant 3.938489E-02, !- Coefficient2 x 1.732511E-04, !- Coefficient3 x**2 1.260815E+00, !- Coefficient4 y 8.111637E-01, !- Coefficient5 y**2 -4.893450E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -3.768289E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.37, !- Minimum Value of x 32.01, !- Maximum Value of x 0.30, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Trane RTHC 1094kW/6.55COP/Valve ! Manufacturer = Trane, Model Line = RTHC ! Reference Capacity = 1094 kW (311 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane RTHC 1094kW/6.55COP/Valve, !- Name 1093600, !- Reference Capacity {W} 6.55, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 30.00, !- Reference Leaving Condenser Water Temperature {C} 0.04921, !- Reference Chilled Water Flow Rate {m3/s} 0.04524, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane RTHC 1094kW/6.55COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane RTHC 1094kW/6.55COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane RTHC 1094kW/6.55COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.25, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.25, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHC 1094kW/6.55COP/Valve CAPFT, !- Name 9.937063E-01, !- Coefficient1 Constant 4.121201E-02, !- Coefficient2 x 5.647147E-04, !- Coefficient3 x**2 -4.466726E-03, !- Coefficient4 y -6.255209E-05, !- Coefficient5 y**2 -2.959437E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 22.50, !- Minimum Value of y 31.57; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane RTHC 1094kW/6.55COP/Valve EIRFT, !- Name 6.406305E-01, !- Coefficient1 Constant -4.941735E-03, !- Coefficient2 x 8.316386E-04, !- Coefficient3 x**2 -1.042529E-03, !- Coefficient4 y 6.666939E-04, !- Coefficient5 y**2 -1.259813E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 22.50, !- Minimum Value of y 31.57; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane RTHC 1094kW/6.55COP/Valve EIRFPLR, !- Name -5.793160E-01, !- Coefficient1 Constant 4.173392E-02, !- Coefficient2 x 1.563673E-05, !- Coefficient3 x**2 1.609363E+00, !- Coefficient4 y -3.325578E-01, !- Coefficient5 y**2 -4.262129E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 3.149494E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 19.43, !- Minimum Value of x 30.00, !- Maximum Value of x 0.25, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Carrier 23XL 1108kW/6.92COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 1108 kW (315 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 23XL 1108kW/6.92COP/Valve, !- Name 1107700, !- Reference Capacity {W} 6.92, !- Reference COP {W/W} 8.97, !- Reference Leaving Chilled Water Temperature {C} 29.64, !- Reference Leaving Condenser Water Temperature {C} 0.0571, !- Reference Chilled Water Flow Rate {m3/s} 0.05142, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 23XL 1108kW/6.92COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 23XL 1108kW/6.92COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 23XL 1108kW/6.92COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 1108kW/6.92COP/Valve CAPFT, !- Name 5.158330E-01, !- Coefficient1 Constant -2.311637E-02, !- Coefficient2 x -7.013270E-04, !- Coefficient3 x**2 4.106942E-02, !- Coefficient4 y -1.177302E-03, !- Coefficient5 y**2 2.292450E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.28, !- Minimum Value of y 30.24; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 1108kW/6.92COP/Valve EIRFT, !- Name 5.272297E-01, !- Coefficient1 Constant -1.879890E-02, !- Coefficient2 x 1.120482E-03, !- Coefficient3 x**2 1.100352E-02, !- Coefficient4 y 6.338503E-04, !- Coefficient5 y**2 -1.251189E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 18.28, !- Minimum Value of y 30.24; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 23XL 1108kW/6.92COP/Valve EIRFPLR, !- Name 2.638449E+00, !- Coefficient1 Constant -1.139810E-01, !- Coefficient2 x -1.028538E-04, !- Coefficient3 x**2 -2.382279E+00, !- Coefficient4 y 2.715083E+00, !- Coefficient5 y**2 1.187905E-01, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.025240E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.13, !- Minimum Value of x 29.64, !- Maximum Value of x 0.20, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YS 1171kW/9.15COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 1171 kW (333 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YS 1171kW/9.15COP/Valve, !- Name 1171000, !- Reference Capacity {W} 9.15, !- Reference COP {W/W} 6.11, !- Reference Leaving Chilled Water Temperature {C} 21.56, !- Reference Leaving Condenser Water Temperature {C} 0.03249, !- Reference Chilled Water Flow Rate {m3/s} 0.05173, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YS 1171kW/9.15COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YS 1171kW/9.15COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YS 1171kW/9.15COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.09, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.09, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 1171kW/9.15COP/Valve CAPFT, !- Name 9.337294E-01, !- Coefficient1 Constant 1.920636E-02, !- Coefficient2 x -6.115577E-04, !- Coefficient3 x**2 -7.771906E-04, !- Coefficient4 y -2.483077E-04, !- Coefficient5 y**2 7.872535E-04, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 21.56, !- Minimum Value of y 30.78; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 1171kW/9.15COP/Valve EIRFT, !- Name 3.293911E-01, !- Coefficient1 Constant -2.105626E-02, !- Coefficient2 x 1.769048E-03, !- Coefficient3 x**2 3.636950E-02, !- Coefficient4 y 4.158157E-04, !- Coefficient5 y**2 -1.853560E-03, !- Coefficient6 x*y 6.11, !- Minimum Value of x 12.78, !- Maximum Value of x 21.56, !- Minimum Value of y 30.78; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YS 1171kW/9.15COP/Valve EIRFPLR, !- Name -2.154861E-01, !- Coefficient1 Constant 3.786873E-02, !- Coefficient2 x -1.127341E-05, !- Coefficient3 x**2 2.109726E-01, !- Coefficient4 y 1.287825E+00, !- Coefficient5 y**2 -3.728032E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -2.909471E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 15.08, !- Minimum Value of x 29.47, !- Maximum Value of x 0.09, !- Minimum Value of y 1.01; !- Maximum Value of y ! ReformEIRChiller Carrier 23XL 1196kW/6.39COP/Valve ! Manufacturer = Carrier, Model Line = 23XL ! Reference Capacity = 1196 kW (340 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Carrier 23XL 1196kW/6.39COP/Valve, !- Name 1195600, !- Reference Capacity {W} 6.39, !- Reference COP {W/W} 7.22, !- Reference Leaving Chilled Water Temperature {C} 31.63, !- Reference Leaving Condenser Water Temperature {C} 0.03653, !- Reference Chilled Water Flow Rate {m3/s} 0.04271, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Carrier 23XL 1196kW/6.39COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Carrier 23XL 1196kW/6.39COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Carrier 23XL 1196kW/6.39COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 1196kW/6.39COP/Valve CAPFT, !- Name 3.031420E-01, !- Coefficient1 Constant 6.667912E-03, !- Coefficient2 x -3.704014E-03, !- Coefficient3 x**2 5.246809E-02, !- Coefficient4 y -1.408858E-03, !- Coefficient5 y**2 2.775625E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 20.39, !- Minimum Value of y 32.63; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Carrier 23XL 1196kW/6.39COP/Valve EIRFT, !- Name 5.152368E-01, !- Coefficient1 Constant -1.274543E-02, !- Coefficient2 x 1.116484E-03, !- Coefficient3 x**2 5.217358E-03, !- Coefficient4 y 6.656740E-04, !- Coefficient5 y**2 -1.353664E-03, !- Coefficient6 x*y 6.67, !- Minimum Value of x 12.22, !- Maximum Value of x 20.39, !- Minimum Value of y 32.63; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Carrier 23XL 1196kW/6.39COP/Valve EIRFPLR, !- Name -2.737954E-01, !- Coefficient1 Constant 2.822257E-02, !- Coefficient2 x -8.097657E-05, !- Coefficient3 x**2 9.612284E-01, !- Coefficient4 y 3.029741E-01, !- Coefficient5 y**2 -2.421933E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -3.885224E-02, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 18.54, !- Minimum Value of x 31.63, !- Maximum Value of x 0.20, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YS 1554kW/9.31COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 1554 kW (442 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-134a, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YS 1554kW/9.31COP/Valve, !- Name 1554300, !- Reference Capacity {W} 9.31, !- Reference COP {W/W} 5.56, !- Reference Leaving Chilled Water Temperature {C} 20.74, !- Reference Leaving Condenser Water Temperature {C} 0.0424, !- Reference Chilled Water Flow Rate {m3/s} 0.07949, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YS 1554kW/9.31COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YS 1554kW/9.31COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YS 1554kW/9.31COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.10, !- Minimum Part Load Ratio 1.02, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.10, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 1554kW/9.31COP/Valve CAPFT, !- Name 1.158269E+00, !- Coefficient1 Constant 9.811289E-03, !- Coefficient2 x 1.227091E-03, !- Coefficient3 x**2 -1.535445E-02, !- Coefficient4 y 9.922966E-05, !- Coefficient5 y**2 5.323659E-05, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 20.74, !- Minimum Value of y 40.06; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 1554kW/9.31COP/Valve EIRFT, !- Name 3.556656E-01, !- Coefficient1 Constant 2.393674E-02, !- Coefficient2 x -1.681332E-04, !- Coefficient3 x**2 2.367290E-02, !- Coefficient4 y 7.263583E-04, !- Coefficient5 y**2 -2.267522E-03, !- Coefficient6 x*y 5.56, !- Minimum Value of x 8.89, !- Maximum Value of x 20.74, !- Minimum Value of y 40.06; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YS 1554kW/9.31COP/Valve EIRFPLR, !- Name 3.590292E-01, !- Coefficient1 Constant -5.404650E-03, !- Coefficient2 x -2.016784E-05, !- Coefficient3 x**2 -2.714668E-01, !- Coefficient4 y 2.061858E+00, !- Coefficient5 y**2 6.725648E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.170629E+00, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 13.34, !- Minimum Value of x 28.95, !- Maximum Value of x 0.10, !- Minimum Value of y 1.02; !- Maximum Value of y ! ReformEIRChiller York YS 1758kW/5.84COP/Valve ! Manufacturer = York, Model Line = YS ! Reference Capacity = 1758 kW (500 tons) ! Compressor Type = Screw, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = 460V-3PH-60HZ ! Unloading Mechanism = Slide Valve ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller York YS 1758kW/5.84COP/Valve, !- Name 1758300, !- Reference Capacity {W} 5.84, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 34.65, !- Reference Leaving Condenser Water Temperature {C} 0.07571, !- Reference Chilled Water Flow Rate {m3/s} 0.09464, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller York YS 1758kW/5.84COP/Valve CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller York YS 1758kW/5.84COP/Valve EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller York YS 1758kW/5.84COP/Valve EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.20, !- Minimum Part Load Ratio 1.05, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.20, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 1758kW/5.84COP/Valve CAPFT, !- Name 6.348511E-01, !- Coefficient1 Constant -2.523830E-02, !- Coefficient2 x -1.840036E-03, !- Coefficient3 x**2 3.830396E-02, !- Coefficient4 y -9.961929E-04, !- Coefficient5 y**2 1.906565E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.74, !- Minimum Value of y 39.72; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller York YS 1758kW/5.84COP/Valve EIRFT, !- Name 7.492787E-01, !- Coefficient1 Constant 1.912506E-02, !- Coefficient2 x 1.303486E-03, !- Coefficient3 x**2 -1.981703E-02, !- Coefficient4 y 1.003666E-03, !- Coefficient5 y**2 -1.936814E-03, !- Coefficient6 x*y 4.44, !- Minimum Value of x 8.89, !- Maximum Value of x 17.74, !- Minimum Value of y 39.72; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller York YS 1758kW/5.84COP/Valve EIRFPLR, !- Name -1.522140E-01, !- Coefficient1 Constant 2.440667E-02, !- Coefficient2 x -5.691764E-05, !- Coefficient3 x**2 4.875495E-01, !- Coefficient4 y 7.490485E-01, !- Coefficient5 y**2 -2.093720E-02, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -1.319819E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.32, !- Minimum Value of x 34.65, !- Maximum Value of x 0.20, !- Minimum Value of y 1.05; !- Maximum Value of y ! ReformEIRChiller Trane CGWD 207kW/3.99COP/None ! Manufacturer = Trane, Model Line = CGWD ! Reference Capacity = 207 kW (59 tons) ! Compressor Type = Scroll, Condenser Type = Water ! Refrigerant = R-22, Voltage & Phase = N/A ! Unloading Mechanism = None ! Chiller:Electric:ReformulatedEIR, ReformEIRChiller Trane CGWD 207kW/3.99COP/None, !- Name 207400, !- Reference Capacity {W} 3.99, !- Reference COP {W/W} 6.67, !- Reference Leaving Chilled Water Temperature {C} 35.00, !- Reference Leaving Condenser Water Temperature {C} 0.00898, !- Reference Chilled Water Flow Rate {m3/s} 0.01122, !- Reference Condenser Water Flow Rate {m3/s} ReformEIRChiller Trane CGWD 207kW/3.99COP/None CAPFT, !- Cooling Capacity Function of Temperature Curve Name ReformEIRChiller Trane CGWD 207kW/3.99COP/None EIRFT, !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name LeavingCondenserWaterTemperature, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Type ReformEIRChiller Trane CGWD 207kW/3.99COP/None EIRFPLR, !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name 0.25, !- Minimum Part Load Ratio 1.01, !- Maximum Part Load Ratio 1.0, !- Optimum Part Load Ratio 0.25, !- Minimum Unloading Ratio Chilled Water Side Inlet Node, !- Chilled Water Inlet Node Name Chilled Water Side Outlet Node, !- Chilled Water Outlet Node Name Condenser Side Inlet Node, !- Condenser Inlet Node Name Condenser Side Outlet Node, !- Condenser Outlet Node Name 1.0, !- Fraction of Compressor Electric Consumption Rejected by Condenser 2.0, !- Leaving Chilled Water Lower Temperature Limit {C} ConstantFlow, !- Chiller Flow Mode Type 0.0; !- Design Heat Recovery Water Flow Rate {m3/s} ! ! Curve set (3 Curves): ! ! Cooling Capacity Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CGWD 207kW/3.99COP/None CAPFT, !- Name 9.585465E-01, !- Coefficient1 Constant 3.516870E-02, !- Coefficient2 x 1.246624E-04, !- Coefficient3 x**2 -2.745559E-03, !- Coefficient4 y -5.000232E-05, !- Coefficient5 y**2 -1.723494E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 29.37, !- Minimum Value of y 40.94; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Temperature Curve ! x = Leaving Chilled Water Temperature and y = Leaving Condenser Water Temperature Curve:Biquadratic, ReformEIRChiller Trane CGWD 207kW/3.99COP/None EIRFT, !- Name 7.327001E-01, !- Coefficient1 Constant -8.343605E-03, !- Coefficient2 x 6.385302E-04, !- Coefficient3 x**2 -3.037535E-03, !- Coefficient4 y 4.849529E-04, !- Coefficient5 y**2 -8.358498E-04, !- Coefficient6 x*y 5.56, !- Minimum Value of x 10.00, !- Maximum Value of x 29.37, !- Minimum Value of y 40.94; !- Maximum Value of y ! ! Energy Input to Cooling Output Ratio Function of Part Load Ratio Curve ! x = Leaving Condenser Water Temperature and y = Part Load Ratio (load/capacity) Curve:Bicubic, ReformEIRChiller Trane CGWD 207kW/3.99COP/None EIRFPLR, !- Name 7.086284E-02, !- Coefficient1 Constant 2.787561E-03, !- Coefficient2 x -8.917038E-06, !- Coefficient3 x**2 2.309734E-01, !- Coefficient4 y 1.250442E+00, !- Coefficient5 y**2 -2.161029E-03, !- Coefficient6 x*y 0.000000E+00, !- Coefficient7 x**3 -5.630094E-01, !- Coefficient8 y**3 0.000000E+00, !- Coefficient9 x**2*y 0.000000E+00, !- Coefficient10 x*y**2 20.33, !- Minimum Value of x 35.00, !- Maximum Value of x 0.25, !- Minimum Value of y 1.01; !- Maximum Value of y