Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR

Performance data for chiller ElectricReformulatedEIR

Information

Package with performance data for chillers.

Extends from Modelica.Icons.MaterialPropertiesPackage (Icon for package containing property classes).

Package Content

Name Description
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic Generic Generic data record for chiller ElectricReformulatedEIR
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_471kW_5_89COP_Vanes ReformEIRChiller_McQuay_WSC_471kW_5_89COP_Vanes ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_563kW_10_61COP_Vanes ReformEIRChiller_York_YT_563kW_10_61COP_Vanes ReformEIRChiller York YT 563kW/10.61COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_703kW_7_03COP_Vanes ReformEIRChiller_McQuay_PEH_703kW_7_03COP_Vanes ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_724kW_6_04COP_Vanes ReformEIRChiller_Carrier_23XL_724kW_6_04COP_Vanes ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_742kW_5_42COP_VSD ReformEIRChiller_Carrier_19XR_742kW_5_42COP_VSD ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_816kW_6_74COP_Vanes ReformEIRChiller_McQuay_WSC_816kW_6_74COP_Vanes ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_819kW_8_11COP_Vanes ReformEIRChiller_McQuay_PEH_819kW_8_11COP_Vanes ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_823kW_6_28COP_Vanes ReformEIRChiller_Carrier_19XR_823kW_6_28COP_Vanes ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_869kW_5_57COP_VSD ReformEIRChiller_Carrier_19XR_869kW_5_57COP_VSD ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_897kW_7_23COP_VSD ReformEIRChiller_Carrier_19XR_897kW_7_23COP_VSD ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_897kW_6_50COP_Vanes ReformEIRChiller_Carrier_19XR_897kW_6_50COP_Vanes ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_897kW_7_60COP_VSD ReformEIRChiller_York_YT_897kW_7_60COP_VSD ReformEIRChiller York YT 897kW/7.60COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_897kW_6_27COP_VSD ReformEIRChiller_York_YT_897kW_6_27COP_VSD ReformEIRChiller York YT 897kW/6.27COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_897kW_6_23COP_VSD ReformEIRChiller_Carrier_19XR_897kW_6_23COP_VSD ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_932kW_5_09COP_Vanes ReformEIRChiller_McQuay_PFH_932kW_5_09COP_Vanes ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_960kW_4_64COP_Vanes ReformEIRChiller_York_YT_960kW_4_64COP_Vanes ReformEIRChiller York YT 960kW/4.64COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1023kW_5_81COP_Vanes ReformEIRChiller_York_YT_1023kW_5_81COP_Vanes ReformEIRChiller York YT 1023kW/5.81COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1030kW_8_58COP_Vanes ReformEIRChiller_McQuay_PEH_1030kW_8_58COP_Vanes ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1048kW_6_06COP_Vanes ReformEIRChiller_York_YT_1048kW_6_06COP_Vanes ReformEIRChiller York YT 1048kW/6.06COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1055kW_5_96COP_Vanes ReformEIRChiller_York_YT_1055kW_5_96COP_Vanes ReformEIRChiller York YT 1055kW/5.96COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1076kW_5_52COP_Vanes ReformEIRChiller_Carrier_19XR_1076kW_5_52COP_Vanes ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1080kW_7_39COP_Vanes ReformEIRChiller_Trane_CVHE_1080kW_7_39COP_Vanes ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1090kW_7_57COP_VSD ReformEIRChiller_York_YT_1090kW_7_57COP_VSD ReformEIRChiller York YT 1090kW/7.57COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1104kW_8_00COP_Vanes ReformEIRChiller_McQuay_PEH_1104kW_8_00COP_Vanes ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1125kW_4_89COP_Vanes ReformEIRChiller_Trane_CVHE_1125kW_4_89COP_Vanes ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1125kW_7_92COP_VSD ReformEIRChiller_York_YT_1125kW_7_92COP_VSD ReformEIRChiller York YT 1125kW/7.92COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1129kW_7_19COP_Vanes ReformEIRChiller_Trane_CVHE_1129kW_7_19COP_Vanes ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1143kW_6_57COP_VSD ReformEIRChiller_Carrier_19XR_1143kW_6_57COP_VSD ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1157kW_5_62COP_VSD ReformEIRChiller_Carrier_19XR_1157kW_5_62COP_VSD ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1196kW_6_50COP_Vanes ReformEIRChiller_Carrier_19XR_1196kW_6_50COP_Vanes ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1213kW_7_78COP_Vanes ReformEIRChiller_Carrier_19XR_1213kW_7_78COP_Vanes ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1231kW_6_18COP_Vanes ReformEIRChiller_McQuay_PEH_1231kW_6_18COP_Vanes ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1234kW_5_39COP_VSD ReformEIRChiller_Carrier_19XR_1234kW_5_39COP_VSD ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1259kW_6_26COP_Vanes ReformEIRChiller_Carrier_19XR_1259kW_6_26COP_Vanes ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_1259kW_6_45COP_Vanes ReformEIRChiller_York_YK_1259kW_6_45COP_Vanes ReformEIRChiller York YK 1259kW/6.45COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1266kW_4_39COP_Vanes ReformEIRChiller_York_YT_1266kW_4_39COP_Vanes ReformEIRChiller York YT 1266kW/4.39COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1284kW_6_20COP_Vanes ReformEIRChiller_Carrier_19XR_1284kW_6_20COP_Vanes ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1294kW_7_61COP_Vanes ReformEIRChiller_Carrier_19XR_1294kW_7_61COP_Vanes ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1329kW_5_38COP_Vanes ReformEIRChiller_Trane_CVHE_1329kW_5_38COP_Vanes ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1350kW_7_90COP_VSD ReformEIRChiller_Carrier_19XR_1350kW_7_90COP_VSD ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1368kW_7_35COP_VSD ReformEIRChiller_York_YT_1368kW_7_35COP_VSD ReformEIRChiller York YT 1368kW/7.35COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1372kW_7_49COP_Vanes ReformEIRChiller_Trane_CVHE_1372kW_7_49COP_Vanes ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1396kW_7_35COP_Vanes ReformEIRChiller_York_YT_1396kW_7_35COP_Vanes ReformEIRChiller York YT 1396kW/7.35COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1403kW_7_09COP_VSD ReformEIRChiller_Carrier_19XR_1403kW_7_09COP_VSD ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1403kW_6_94COP_VSD ReformEIRChiller_York_YT_1403kW_6_94COP_VSD ReformEIRChiller York YT 1403kW/6.94COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1407kW_7_14COP_VSD ReformEIRChiller_Trane_CVHE_1407kW_7_14COP_VSD ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_1407kW_6_60COP_Vanes ReformEIRChiller_McQuay_PFH_1407kW_6_60COP_Vanes ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1407kW_6_04COP_VSD ReformEIRChiller_Carrier_19XR_1407kW_6_04COP_VSD ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1410kW_8_54COP_VSD ReformEIRChiller_Carrier_19XR_1410kW_8_54COP_VSD ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1442kW_6_61COP_VSD ReformEIRChiller_Trane_CVHE_1442kW_6_61COP_VSD ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1459kW_6_40COP_VSD ReformEIRChiller_York_YT_1459kW_6_40COP_VSD ReformEIRChiller York YT 1459kW/6.40COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1484kW_9_96COP_VSD ReformEIRChiller_Trane_CVHE_1484kW_9_96COP_VSD ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1495kW_7_51COP_VSD ReformEIRChiller_York_YT_1495kW_7_51COP_VSD ReformEIRChiller York YT 1495kW/7.51COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_1519kW_7_10COP_Vanes ReformEIRChiller_McQuay_WSC_1519kW_7_10COP_Vanes ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1558kW_5_81COP_VSD ReformEIRChiller_Carrier_19XR_1558kW_5_81COP_VSD ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1586kW_5_53COP_VSD ReformEIRChiller_Carrier_19XR_1586kW_5_53COP_VSD ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1635kW_7_47COP_Vanes ReformEIRChiller_McQuay_PEH_1635kW_7_47COP_Vanes ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1635kW_6_36COP_Vanes ReformEIRChiller_Carrier_19XR_1635kW_6_36COP_Vanes ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1656kW_8_24COP_VSD ReformEIRChiller_Carrier_19XR_1656kW_8_24COP_VSD ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1663kW_9_34COP_Vanes ReformEIRChiller_York_YT_1663kW_9_34COP_Vanes ReformEIRChiller York YT 1663kW/9.34COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1674kW_7_89COP_Vanes ReformEIRChiller_Carrier_19XL_1674kW_7_89COP_Vanes ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1681kW_6_59COP_Vanes ReformEIRChiller_Trane_CVHF_1681kW_6_59COP_Vanes ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1723kW_8_32COP_VSD ReformEIRChiller_Carrier_19XR_1723kW_8_32COP_VSD ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1727kW_9_04COP_Vanes ReformEIRChiller_Carrier_19XR_1727kW_9_04COP_Vanes ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_1751kW_6_73COP_Vanes ReformEIRChiller_McQuay_WSC_1751kW_6_73COP_Vanes ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1758kW_5_96COP_Vanes ReformEIRChiller_Trane_CVHF_1758kW_5_96COP_Vanes ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_5_76COP_VSD ReformEIRChiller_York_YT_1758kW_5_76COP_VSD ReformEIRChiller York YT 1758kW/5.76COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_6_26COP_Vanes ReformEIRChiller_York_YT_1758kW_6_26COP_Vanes ReformEIRChiller York YT 1758kW/6.26COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_5_96COP_Vanes ReformEIRChiller_York_YT_1758kW_5_96COP_Vanes ReformEIRChiller York YT 1758kW/5.96COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1758kW_5_96COP_Vanes ReformEIRChiller_Trane_CVHE_1758kW_5_96COP_Vanes ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_6_28COP_Vanes ReformEIRChiller_York_YT_1758kW_6_28COP_Vanes ReformEIRChiller York YT 1758kW/6.28COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1758kW_5_86COP_VSD ReformEIRChiller_Carrier_19XR_1758kW_5_86COP_VSD ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1758kW_6_46COP_VSD ReformEIRChiller_Trane_CVHF_1758kW_6_46COP_VSD ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1758kW_6_87COP_Vanes ReformEIRChiller_Trane_CVHF_1758kW_6_87COP_Vanes ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1776kW_8_00COP_Vanes ReformEIRChiller_Carrier_19XR_1776kW_8_00COP_Vanes ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1779kW_6_18COP_Vanes ReformEIRChiller_Carrier_19XL_1779kW_6_18COP_Vanes ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1779kW_6_18COP_Vanes ReformEIRChiller_Trane_CVHF_1779kW_6_18COP_Vanes ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1794kW_8_11COP_Vanes ReformEIRChiller_York_YT_1794kW_8_11COP_Vanes ReformEIRChiller York YT 1794kW/8.11COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1794kW_7_90COP_VSD ReformEIRChiller_York_YT_1794kW_7_90COP_VSD ReformEIRChiller York YT 1794kW/7.90COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1797kW_5_69COP_Vanes ReformEIRChiller_Carrier_19XL_1797kW_5_69COP_Vanes ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1801kW_6_34COP_VSD ReformEIRChiller_Carrier_19XR_1801kW_6_34COP_VSD ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1867kW_10_09COP_Vanes ReformEIRChiller_York_YT_1867kW_10_09COP_Vanes ReformEIRChiller York YT 1867kW/10.09COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1871kW_6_49COP_Vanes ReformEIRChiller_Carrier_19XL_1871kW_6_49COP_Vanes ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1881kW_6_77COP_VSD ReformEIRChiller_York_YT_1881kW_6_77COP_VSD ReformEIRChiller York YT 1881kW/6.77COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_1881kW_6_53COP_Vanes ReformEIRChiller_York_YK_1881kW_6_53COP_Vanes ReformEIRChiller York YK 1881kW/6.53COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1895kW_6_42COP_Vanes ReformEIRChiller_McQuay_PEH_1895kW_6_42COP_Vanes ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1934kW_7_55COP_Vanes ReformEIRChiller_York_YT_1934kW_7_55COP_Vanes ReformEIRChiller York YT 1934kW/7.55COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1934kW_6_01COP_Vanes ReformEIRChiller_McQuay_PEH_1934kW_6_01COP_Vanes ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WDC_1973kW_6_28COP_Vanes ReformEIRChiller_McQuay_WDC_1973kW_6_28COP_Vanes ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_1997kW_7_24COP_Vanes ReformEIRChiller_York_YK_1997kW_7_24COP_Vanes ReformEIRChiller York YK 1997kW/7.24COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_2043kW_8_44COP_Vanes ReformEIRChiller_McQuay_PFH_2043kW_8_44COP_Vanes ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2043kW_9_08COP_Vanes ReformEIRChiller_Trane_CVHF_2043kW_9_08COP_Vanes ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_2057kW_6_05COP_Vanes ReformEIRChiller_Carrier_19XL_2057kW_6_05COP_Vanes ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_2110kW_7_15COP_Vanes ReformEIRChiller_York_YT_2110kW_7_15COP_Vanes ReformEIRChiller York YT 2110kW/7.15COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_2124kW_6_03COP_Vanes ReformEIRChiller_McQuay_PFH_2124kW_6_03COP_Vanes ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2159kW_6_85COP_Vanes ReformEIRChiller_York_YK_2159kW_6_85COP_Vanes ReformEIRChiller York YK 2159kW/6.85COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2184kW_6_78COP_Vanes ReformEIRChiller_Trane_CVHF_2184kW_6_78COP_Vanes ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2201kW_6_69COP_Vanes ReformEIRChiller_York_YK_2201kW_6_69COP_Vanes ReformEIRChiller York YK 2201kW/6.69COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_2233kW_9_54COP_VSD ReformEIRChiller_York_YT_2233kW_9_54COP_VSD ReformEIRChiller York YT 2233kW/9.54COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2237kW_6_41COP_Vanes ReformEIRChiller_York_YK_2237kW_6_41COP_Vanes ReformEIRChiller York YK 2237kW/6.41COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2275kW_6_32COP_Vanes ReformEIRChiller_York_YK_2275kW_6_32COP_Vanes ReformEIRChiller York YK 2275kW/6.32COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2300kW_8_10COP_Vanes ReformEIRChiller_Trane_CVHF_2300kW_8_10COP_Vanes ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2317kW_6_33COP_VSD ReformEIRChiller_Trane_CVHF_2317kW_6_33COP_VSD ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_2391kW_6_77COP_Vanes ReformEIRChiller_Carrier_19XR_2391kW_6_77COP_Vanes ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_2391kW_6_44COP_VSD ReformEIRChiller_Carrier_19XR_2391kW_6_44COP_VSD ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2412kW_5_58COP_Vanes ReformEIRChiller_York_YK_2412kW_5_58COP_Vanes ReformEIRChiller York YK 2412kW/5.58COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_2462kW_6_67COP_Vanes ReformEIRChiller_McQuay_PFH_2462kW_6_67COP_Vanes ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHG670_44_86_2490kW_6_5COP ReformEIRChiller_Trane_CVHG670_44_86_2490kW_6_5COP ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2567kW_11_77COP_VSD ReformEIRChiller_Trane_CVHF_2567kW_11_77COP_VSD ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2771kW_6_84COP_VSD ReformEIRChiller_York_YK_2771kW_6_84COP_VSD ReformEIRChiller York YK 2771kW/6.84COP/VSD
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2799kW_6_40COP_Vanes ReformEIRChiller_Trane_CVHF_2799kW_6_40COP_Vanes ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_3133kW_9_16COP_Vanes ReformEIRChiller_York_YT_3133kW_9_16COP_Vanes ReformEIRChiller York YT 3133kW/9.16COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_3165kW_6_48COP_Vanes ReformEIRChiller_McQuay_PFH_3165kW_6_48COP_Vanes ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_4020kW_7_35COP_Vanes ReformEIRChiller_McQuay_PFH_4020kW_7_35COP_Vanes ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_4396kW_6_63COP_Vanes ReformEIRChiller_York_YK_4396kW_6_63COP_Vanes ReformEIRChiller York YK 4396kW/6.63COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_4477kW_6_64COP_Vanes ReformEIRChiller_York_YK_4477kW_6_64COP_Vanes ReformEIRChiller York YK 4477kW/6.64COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_4515kW_6_22COP_Vanes ReformEIRChiller_York_YK_4515kW_6_22COP_Vanes ReformEIRChiller York YK 4515kW/6.22COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_4537kW_6_28COP_Vanes ReformEIRChiller_York_YK_4537kW_6_28COP_Vanes ReformEIRChiller York YK 4537kW/6.28COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_4610kW_6_34COP_Vanes ReformEIRChiller_Trane_CVHF_4610kW_6_34COP_Vanes ReformEIRChiller Trane CVHF 4610kW/6.34COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19EX_4667kW_6_16COP_Vanes ReformEIRChiller_Carrier_19EX_4667kW_6_16COP_Vanes ReformEIRChiller Carrier 19EX 4667kW/6.16COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_4677kW_6_27COP_Vanes ReformEIRChiller_Trane_CVHF_4677kW_6_27COP_Vanes ReformEIRChiller Trane CVHF 4677kW/6.27COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_4966kW_6_05COP_Vanes ReformEIRChiller_York_YK_4966kW_6_05COP_Vanes ReformEIRChiller York YK 4966kW/6.05COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_4969kW_7_14COP_Vanes ReformEIRChiller_York_YK_4969kW_7_14COP_Vanes ReformEIRChiller York YK 4969kW/7.14COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_4969kW_7_07COP_Vanes ReformEIRChiller_York_YK_4969kW_7_07COP_Vanes ReformEIRChiller York YK 4969kW/7.07COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19EX_4997kW_6_40COP_Vanes ReformEIRChiller_Carrier_19EX_4997kW_6_40COP_Vanes ReformEIRChiller Carrier 19EX 4997kW/6.40COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19EX_5148kW_6_34COP_Vanes ReformEIRChiller_Carrier_19EX_5148kW_6_34COP_Vanes ReformEIRChiller Carrier 19EX 5148kW/6.34COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_5170kW_7_15COP_Vanes ReformEIRChiller_York_YK_5170kW_7_15COP_Vanes ReformEIRChiller York YK 5170kW/7.15COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19EX_5208kW_6_88COP_Vanes ReformEIRChiller_Carrier_19EX_5208kW_6_88COP_Vanes ReformEIRChiller Carrier 19EX 5208kW/6.88COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_5465kW_6_94COP_Vanes ReformEIRChiller_York_YK_5465kW_6_94COP_Vanes ReformEIRChiller York YK 5465kW/6.94COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_5549kW_6_50COP_Vanes ReformEIRChiller_York_YK_5549kW_6_50COP_Vanes ReformEIRChiller York YK 5549kW/6.50COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19FA_5651kW_5_50COP_Vanes ReformEIRChiller_Carrier_19FA_5651kW_5_50COP_Vanes ReformEIRChiller Carrier 19FA 5651kW/5.50COP/Vanes
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Multistack_MS_172kW_3_67COP_None ReformEIRChiller_Multistack_MS_172kW_3_67COP_None ReformEIRChiller Multistack MS 172kW/3.67COP/None
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_RTWA_383kW_4_17COP_Valve ReformEIRChiller_Trane_RTWA_383kW_4_17COP_Valve ReformEIRChiller Trane RTWA 383kW/4.17COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_RTHB_531kW_4_83COP_Valve ReformEIRChiller_Trane_RTHB_531kW_4_83COP_Valve ReformEIRChiller Trane RTHB 531kW/4.83COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_RTHB_538kW_5_12COP_Valve ReformEIRChiller_Trane_RTHB_538kW_5_12COP_Valve ReformEIRChiller Trane RTHB 538kW/5.12COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_RTHB_542kW_5_26COP_Valve ReformEIRChiller_Trane_RTHB_542kW_5_26COP_Valve ReformEIRChiller Trane RTHB 542kW/5.26COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YS_672kW_7_90COP_Valve ReformEIRChiller_York_YS_672kW_7_90COP_Valve ReformEIRChiller York YS 672kW/7.90COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_686kW_5_91COP_Valve ReformEIRChiller_Carrier_23XL_686kW_5_91COP_Valve ReformEIRChiller Carrier 23XL 686kW/5.91COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_RTHC_707kW_7_77COP_Valve ReformEIRChiller_Trane_RTHC_707kW_7_77COP_Valve ReformEIRChiller Trane RTHC 707kW/7.77COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YS_756kW_7_41COP_Valve ReformEIRChiller_York_YS_756kW_7_41COP_Valve ReformEIRChiller York YS 756kW/7.41COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YS_781kW_5_42COP_Valve ReformEIRChiller_York_YS_781kW_5_42COP_Valve ReformEIRChiller York YS 781kW/5.42COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_830kW_6_97COP_Valve ReformEIRChiller_Carrier_23XL_830kW_6_97COP_Valve ReformEIRChiller Carrier 23XL 830kW/6.97COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_862kW_6_11COP_Valve ReformEIRChiller_Carrier_23XL_862kW_6_11COP_Valve ReformEIRChiller Carrier 23XL 862kW/6.11COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_862kW_6_84COP_Valve ReformEIRChiller_Carrier_23XL_862kW_6_84COP_Valve ReformEIRChiller Carrier 23XL 862kW/6.84COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_865kW_6_05COP_Valve ReformEIRChiller_Carrier_23XL_865kW_6_05COP_Valve ReformEIRChiller Carrier 23XL 865kW/6.05COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YS_879kW_5_82COP_Valve ReformEIRChiller_York_YS_879kW_5_82COP_Valve ReformEIRChiller York YS 879kW/5.82COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_RTHC_1009kW_5_37COP_Valve ReformEIRChiller_Trane_RTHC_1009kW_5_37COP_Valve ReformEIRChiller Trane RTHC 1009kW/5.37COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_RTHB_1051kW_5_05COP_Valve ReformEIRChiller_Trane_RTHB_1051kW_5_05COP_Valve ReformEIRChiller Trane RTHB 1051kW/5.05COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_1062kW_5_50COP_Valve ReformEIRChiller_Carrier_23XL_1062kW_5_50COP_Valve ReformEIRChiller Carrier 23XL 1062kW/5.50COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_RTHC_1066kW_5_73COP_Valve ReformEIRChiller_Trane_RTHC_1066kW_5_73COP_Valve ReformEIRChiller Trane RTHC 1066kW/5.73COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_RTHC_1094kW_6_55COP_Valve ReformEIRChiller_Trane_RTHC_1094kW_6_55COP_Valve ReformEIRChiller Trane RTHC 1094kW/6.55COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_1108kW_6_92COP_Valve ReformEIRChiller_Carrier_23XL_1108kW_6_92COP_Valve ReformEIRChiller Carrier 23XL 1108kW/6.92COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YS_1171kW_9_15COP_Valve ReformEIRChiller_York_YS_1171kW_9_15COP_Valve ReformEIRChiller York YS 1171kW/9.15COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_1196kW_6_39COP_Valve ReformEIRChiller_Carrier_23XL_1196kW_6_39COP_Valve ReformEIRChiller Carrier 23XL 1196kW/6.39COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YS_1554kW_9_31COP_Valve ReformEIRChiller_York_YS_1554kW_9_31COP_Valve ReformEIRChiller York YS 1554kW/9.31COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YS_1758kW_5_84COP_Valve ReformEIRChiller_York_YS_1758kW_5_84COP_Valve ReformEIRChiller York YS 1758kW/5.84COP/Valve
Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CGWD_207kW_3_99COP_None ReformEIRChiller_Trane_CGWD_207kW_3_99COP_None ReformEIRChiller Trane CGWD 207kW/3.99COP/None

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic

Generic data record for chiller ElectricReformulatedEIR

Information

This record is used as a template for performance data for the chiller model Buildings.Fluid.Chillers.ElectricReformulatedEIR. To provide performance data for Buildings.Fluid.Chillers.ElectricEIR, use Buildings.Fluid.Chillers.Data.ElectricEIR.Generic instead.

Extends from Buildings.Fluid.Chillers.Data.BaseClasses.Chiller (Base classes for chiller models).

Parameters

TypeNameDefaultDescription
RealPLRMax Maximum part load ratio
RealPLRMinUnl Minimum part unload ratio
RealPLRMin Minimum part load ratio
RealetaMotor Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal Reference capacity (negative number) [W]
RealCOP_nominal Reference coefficient of performance
MassFlowRatemEva_flow_nominal Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
IntegernCapFunT6Number of coefficients for capFunT
IntegernEIRFunT6Number of coefficients for EIRFunT
IntegernEIRFunPLR10Number of coefficients for EIRFunPLR
RealcapFunT[nCapFunT] Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT] Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR] Coefficients for EIRFunPLR
TemperatureTEvaLvgMin Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax Maximum value for leaving condenser temperature [K]

Modelica definition

record Generic "Generic data record for chiller ElectricReformulatedEIR" extends Buildings.Fluid.Chillers.Data.BaseClasses.Chiller( final nCapFunT=6, final nEIRFunT=6, final nEIRFunPLR=10); parameter Modelica.Units.SI.Temperature TConLvg_nominal "Temperature of fluid leaving condenser at nominal condition"; parameter Modelica.Units.SI.Temperature TConLvgMin "Minimum value for leaving condenser temperature"; Modelica.Units.SI.Temperature TConLvgMax "Maximum value for leaving condenser temperature"; end Generic;

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_471kW_5_89COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_471kW_5_89COP_Vanes

ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.08Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 33.52Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-471200Reference capacity (negative number) [W]
RealCOP_nominal5.89Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.01035Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.01924Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-4.862465E-01,-7.293218E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{3.522647E-01,-3.311790E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{8.215998E-01,-2.209969E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.81Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.09Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_WSC_471kW_5_89COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -471200, COP_nominal = 5.89, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.08, mEva_flow_nominal = 1000 * 0.01035, mCon_flow_nominal = 1000 * 0.01924, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 33.52, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 18.81, TConLvgMax = 273.15 + 35.09, capFunT = {-4.862465E-01,-7.293218E-02,-8.514849E-03,1.463106E-01,-4.474066E-03,9.813408E-03}, EIRFunT = {3.522647E-01,-3.311790E-02,-1.374491E-04,3.469525E-02,-3.624458E-04,6.749423E-04}, EIRFunPLR = {8.215998E-01,-2.209969E-02,-1.725652E-05,-3.831448E-02,1.896948E-01,2.308518E-02,0.000000E+00,1.349969E-02,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay WSC 471kW/5.89COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_563kW_10_61COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_563kW_10_61COP_Vanes

ReformEIRChiller York YT 563kW/10.61COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 18.89Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-562600Reference capacity (negative number) [W]
RealCOP_nominal10.61Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.01514Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.0241Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-2.841837E-01,-1.006253E-01...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{-5.308783E-01,-8.364102E-02...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.931998E+00,-2.128161E-01,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.47Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 33.52Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_563kW_10_61COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -562600, COP_nominal = 10.61, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.01514, mCon_flow_nominal = 1000 * 0.0241, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 18.89, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 18.47, TConLvgMax = 273.15 + 33.52, capFunT = {-2.841837E-01,-1.006253E-01,-3.157589E-03,1.221758E-01,-3.003466E-03,6.704017E-03}, EIRFunT = {-5.308783E-01,-8.364102E-02,-4.054970E-03,1.347115E-01,-1.805617E-03,3.054789E-03}, EIRFunPLR = {4.931998E+00,-2.128161E-01,3.520769E-04,-8.586753E+00,1.375722E+01,1.940510E-01,0.000000E+00,-8.859038E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 563kW/10.61COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_703kW_7_03COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_703kW_7_03COP_Vanes

ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.40Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-703300Reference capacity (negative number) [W]
RealCOP_nominal7.03Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02019Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.02902Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.336180E-01,6.473161E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{8.177961E-01,-1.756394E-01,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.342644E+00,-1.060883E-01,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.28Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 31.25Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PEH_703kW_7_03COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -703300, COP_nominal = 7.03, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.02019, mCon_flow_nominal = 1000 * 0.02902, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 29.40, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 20.28, TConLvgMax = 273.15 + 31.25, capFunT = {-1.336180E-01,6.473161E-02,-1.240446E-02,9.425649E-02,-2.958871E-03,5.765503E-03}, EIRFunT = {8.177961E-01,-1.756394E-01,2.510719E-03,2.677783E-02,-4.926551E-04,4.559008E-03}, EIRFunPLR = {2.342644E+00,-1.060883E-01,2.710155E-04,-2.289108E+00,3.338339E+00,9.221626E-02,0.000000E+00,-2.217954E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PEH 703kW/7.03COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_724kW_6_04COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_23XL_724kW_6_04COP_Vanes

ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.19Minimum part unload ratio
RealPLRMin0.19Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.44Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-724400Reference capacity (negative number) [W]
RealCOP_nominal6.04Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.01779Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.01956Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.116010E-01,-1.058351E-01...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.899136E-01,1.976846E-02,8...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.645490E-01,2.732140E-03,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 22.12Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.40Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_23XL_724kW_6_04COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -724400, COP_nominal = 6.04, PLRMin = 0.19, PLRMinUnl = 0.19, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.01779, mCon_flow_nominal = 1000 * 0.01956, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 31.44, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 22.12, TConLvgMax = 273.15 + 35.40, capFunT = {-1.116010E-01,-1.058351E-01,-1.829692E-03,9.677921E-02,-2.169221E-03,4.998660E-03}, EIRFunT = {5.899136E-01,1.976846E-02,8.755088E-04,-7.564222E-03,8.775130E-04,-2.036856E-03}, EIRFunPLR = {3.645490E-01,2.732140E-03,-5.356774E-05,1.212025E-01,5.491750E-01,2.083941E-04,0.000000E+00,-7.516191E-02,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 23XL 724kW/6.04COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_742kW_5_42COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_742kW_5_42COP_VSD

ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.19Minimum part unload ratio
RealPLRMin0.19Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.86Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-742000Reference capacity (negative number) [W]
RealCOP_nominal5.42Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.01779Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.01956Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{7.769438E-01,-2.149731E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.131963E+00,-4.201196E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.301853E-02,1.740092E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 22.11Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.90Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_742kW_5_42COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -742000, COP_nominal = 5.42, PLRMin = 0.19, PLRMinUnl = 0.19, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.01779, mCon_flow_nominal = 1000 * 0.01956, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 31.86, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 22.11, TConLvgMax = 273.15 + 34.90, capFunT = {7.769438E-01,-2.149731E-02,-1.080097E-03,2.754266E-02,-7.938947E-04,1.666375E-03}, EIRFunT = {1.131963E+00,-4.201196E-02,7.571267E-04,-2.042484E-02,7.676570E-04,-2.753302E-04}, EIRFunPLR = {4.301853E-02,1.740092E-02,-2.733344E-05,-5.445504E-01,2.155307E+00,-1.600200E-02,0.000000E+00,-6.716912E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 742kW/5.42COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_816kW_6_74COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_816kW_6_74COP_Vanes

ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.05Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-815800Reference capacity (negative number) [W]
RealCOP_nominal6.74Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.01748Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04164Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{9.237537E-01,1.013316E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{7.251890E-01,-1.477434E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{5.166838E-01,-1.114911E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.41Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 33.45Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_WSC_816kW_6_74COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -815800, COP_nominal = 6.74, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.01748, mCon_flow_nominal = 1000 * 0.04164, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 32.05, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 19.41, TConLvgMax = 273.15 + 33.45, capFunT = {9.237537E-01,1.013316E-02,-6.564312E-03,2.744234E-02,-2.183256E-03,6.537972E-03}, EIRFunT = {7.251890E-01,-1.477434E-02,-3.174328E-03,4.035136E-03,-6.105556E-05,2.003152E-03}, EIRFunPLR = {5.166838E-01,-1.114911E-02,7.372985E-05,-7.182393E-02,8.180601E-01,7.638243E-03,0.000000E+00,-2.216516E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay WSC 816kW/6.74COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_819kW_8_11COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_819kW_8_11COP_Vanes

ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.05Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 18.59Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-819300Reference capacity (negative number) [W]
RealCOP_nominal8.11Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02524Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.03785Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 4.44Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{5.519141E-01,1.393287E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{4.447588E-01,-3.185710E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.038400E-01,1.702895E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.51Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.07Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PEH_819kW_8_11COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -819300, COP_nominal = 8.11, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.05, mEva_flow_nominal = 1000 * 0.02524, mCon_flow_nominal = 1000 * 0.03785, TEvaLvg_nominal = 273.15 + 4.44, TConLvg_nominal = 273.15 + 18.59, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 18.51, TConLvgMax = 273.15 + 35.07, capFunT = {5.519141E-01,1.393287E-02,-4.818082E-03,3.705684E-02,-1.429769E-03,3.473993E-03}, EIRFunT = {4.447588E-01,-3.185710E-02,-8.260575E-04,3.712567E-02,-4.887950E-05,4.978770E-04}, EIRFunPLR = {1.038400E-01,1.702895E-02,-1.399515E-05,-9.140769E-03,1.077987E+00,-1.633517E-02,0.000000E+00,-1.811897E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PEH 819kW/8.11COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_823kW_6_28COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_823kW_6_28COP_Vanes

ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 28.70Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-822900Reference capacity (negative number) [W]
RealCOP_nominal6.28Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03186Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04744Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{3.746558E-01,8.556337E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.280652E-01,3.277907E-02,7...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.057586E-01,1.472161E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.99Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 29.36Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_823kW_6_28COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -822900, COP_nominal = 6.28, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.03186, mCon_flow_nominal = 1000 * 0.04744, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 28.70, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 17.99, TConLvgMax = 273.15 + 29.36, capFunT = {3.746558E-01,8.556337E-02,-3.020882E-03,3.745436E-02,-9.995050E-04,-4.477637E-05}, EIRFunT = {9.280652E-01,3.277907E-02,7.583449E-04,-2.536152E-02,1.204136E-03,-2.475422E-03}, EIRFunPLR = {1.057586E-01,1.472161E-02,-5.875508E-05,6.780787E-01,-6.310911E-02,-1.207949E-02,0.000000E+00,2.498837E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 823kW/6.28COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_869kW_5_57COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_869kW_5_57COP_VSD

ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.18Minimum part unload ratio
RealPLRMin0.18Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 36.12Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-868600Reference capacity (negative number) [W]
RealCOP_nominal5.57Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.01754Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.02593Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{5.989856E-01,1.069929E-01,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.173193E-01,7.303695E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.317677E-01,-7.501960E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 22.63Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.94Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_869kW_5_57COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -868600, COP_nominal = 5.57, PLRMin = 0.18, PLRMinUnl = 0.18, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.01754, mCon_flow_nominal = 1000 * 0.02593, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 36.12, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 22.63, TConLvgMax = 273.15 + 36.94, capFunT = {5.989856E-01,1.069929E-01,-8.442248E-03,-1.622083E-03,-4.384385E-04,2.372388E-03}, EIRFunT = {5.173193E-01,7.303695E-02,-7.486318E-03,-2.613352E-03,1.000039E-04,1.264598E-03}, EIRFunPLR = {1.317677E-01,-7.501960E-03,5.073000E-06,8.550743E-01,-6.215987E-01,7.267902E-03,0.000000E+00,6.373549E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 869kW/5.57COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_897kW_7_23COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_897kW_7_23COP_VSD

ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.49Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-896700Reference capacity (negative number) [W]
RealCOP_nominal7.23Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06782Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.0436Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 9.82Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{5.211989E-01,7.968670E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.970381E-01,5.701647E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{7.280764E-01,-5.949776E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.72Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 30.41Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_897kW_7_23COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -896700, COP_nominal = 7.23, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.06782, mCon_flow_nominal = 1000 * 0.0436, TEvaLvg_nominal = 273.15 + 9.82, TConLvg_nominal = 273.15 + 29.49, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 18.72, TConLvgMax = 273.15 + 30.41, capFunT = {5.211989E-01,7.968670E-02,-1.488365E-03,1.974850E-02,-4.643458E-04,-7.786719E-04}, EIRFunT = {6.970381E-01,5.701647E-02,-2.272629E-04,8.496805E-03,4.752264E-04,-2.759799E-03}, EIRFunPLR = {7.280764E-01,-5.949776E-02,3.161338E-05,8.871893E-01,-1.081399E+00,5.804626E-02,0.000000E+00,4.825053E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 897kW/7.23COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_897kW_6_50COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_897kW_6_50COP_Vanes

ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.49Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-896700Reference capacity (negative number) [W]
RealCOP_nominal6.50Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06782Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04423Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 9.82Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{5.761951E-01,5.897243E-03,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.192535E-01,9.218992E-03,1...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-5.497250E-01,5.035076E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.06Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 29.67Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_897kW_6_50COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -896700, COP_nominal = 6.50, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.06782, mCon_flow_nominal = 1000 * 0.04423, TEvaLvg_nominal = 273.15 + 9.82, TConLvg_nominal = 273.15 + 29.49, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 18.06, TConLvgMax = 273.15 + 29.67, capFunT = {5.761951E-01,5.897243E-03,-8.764033E-04,3.207348E-02,-1.225175E-03,2.019768E-03}, EIRFunT = {9.192535E-01,9.218992E-03,1.241236E-03,-1.554079E-02,1.074639E-03,-2.071288E-03}, EIRFunPLR = {-5.497250E-01,5.035076E-02,-1.927855E-05,1.678371E+00,-1.535993E+00,-4.944902E-02,0.000000E+00,1.396972E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 897kW/6.50COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_897kW_7_60COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_897kW_7_60COP_VSD

ReformEIRChiller York YT 897kW/7.60COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 27.50Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-896700Reference capacity (negative number) [W]
RealCOP_nominal7.60Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06782Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 9.83Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{3.548168E-01,3.801839E-03,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{4.207123E-01,5.394605E-05,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-1.019329E+00,8.590218E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.28Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 28.76Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_897kW_7_60COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -896700, COP_nominal = 7.60, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.06782, mCon_flow_nominal = 1000 * 0.05142, TEvaLvg_nominal = 273.15 + 9.83, TConLvg_nominal = 273.15 + 27.50, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 17.28, TConLvgMax = 273.15 + 28.76, capFunT = {3.548168E-01,3.801839E-03,-2.081058E-03,5.549806E-02,-2.238902E-03,3.723197E-03}, EIRFunT = {4.207123E-01,5.394605E-05,-3.910848E-04,4.180526E-02,-1.982304E-04,-1.128927E-03}, EIRFunPLR = {-1.019329E+00,8.590218E-02,-1.293139E-04,7.442374E-01,2.883061E-02,-8.027926E-02,0.000000E+00,1.185988E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 897kW/7.60COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_897kW_6_27COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_897kW_6_27COP_VSD

ReformEIRChiller York YT 897kW/6.27COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 27.61Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-896700Reference capacity (negative number) [W]
RealCOP_nominal6.27Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06782Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.279200E-01,1.653602E-01,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{3.276702E-01,-7.003986E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-3.773762E-02,1.134114E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.59Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 29.04Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_897kW_6_27COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -896700, COP_nominal = 6.27, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.06782, mCon_flow_nominal = 1000 * 0.05142, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 27.61, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 17.59, TConLvgMax = 273.15 + 29.04, capFunT = {-1.279200E-01,1.653602E-01,-4.202474E-03,4.807512E-02,-9.553549E-04,-2.146733E-03}, EIRFunT = {3.276702E-01,-7.003986E-02,5.261779E-03,7.021494E-02,-7.368698E-04,-2.109336E-03}, EIRFunPLR = {-3.773762E-02,1.134114E-02,-2.659425E-05,2.639446E-01,4.805824E-01,-1.117502E-02,0.000000E+00,3.000515E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 897kW/6.27COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_897kW_6_23COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_897kW_6_23COP_VSD

ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.49Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-896700Reference capacity (negative number) [W]
RealCOP_nominal6.23Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06782Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04442Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{8.691024E-01,2.885812E-02,1...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{8.640049E-01,5.766109E-03,1...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{9.617997E-01,-8.158350E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.61Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 30.29Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_897kW_6_23COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -896700, COP_nominal = 6.23, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.06782, mCon_flow_nominal = 1000 * 0.04442, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 29.49, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 18.61, TConLvgMax = 273.15 + 30.29, capFunT = {8.691024E-01,2.885812E-02,1.795420E-04,4.868722E-03,-3.207870E-04,3.825044E-04}, EIRFunT = {8.640049E-01,5.766109E-03,1.197122E-03,-2.312809E-03,4.642915E-04,-1.375629E-03}, EIRFunPLR = {9.617997E-01,-8.158350E-02,-5.841564E-06,1.169179E+00,-1.600491E+00,8.176055E-02,0.000000E+00,4.684331E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 897kW/6.23COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_932kW_5_09COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_932kW_5_09COP_Vanes

ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.75Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-931900Reference capacity (negative number) [W]
RealCOP_nominal5.09Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03785Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04732Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 4.44Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.021236E+00,-1.680220E-03,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{4.854031E-01,-1.891596E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{7.391619E-03,9.094277E-03,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 3.33Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 7.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.66Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.59Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PFH_932kW_5_09COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -931900, COP_nominal = 5.09, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.03785, mCon_flow_nominal = 1000 * 0.04732, TEvaLvg_nominal = 273.15 + 4.44, TConLvg_nominal = 273.15 + 31.75, TEvaLvgMin = 273.15 + 3.33, TEvaLvgMax = 273.15 + 7.78, TConLvgMin = 273.15 + 19.66, TConLvgMax = 273.15 + 35.59, capFunT = {1.021236E+00,-1.680220E-03,-5.223075E-03,2.922245E-02,-1.418909E-03,4.211341E-03}, EIRFunT = {4.854031E-01,-1.891596E-02,-1.236212E-03,1.975021E-02,-1.031869E-04,6.964845E-04}, EIRFunPLR = {7.391619E-03,9.094277E-03,-7.116487E-06,1.699487E-01,1.518580E+00,-8.713759E-03,0.000000E+00,-7.007499E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PFH 932kW/5.09COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_960kW_4_64COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_960kW_4_64COP_Vanes

ReformEIRChiller York YT 960kW/4.64COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.1Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.01Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-960000Reference capacity (negative number) [W]
RealCOP_nominal4.64Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03785Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04732Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 4.44Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-3.474613E-01,4.071500E-01,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.522319E-01,-1.649356E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.303041E-01,-1.499923E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 3.33Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 7.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.04Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.78Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_960kW_4_64COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -960000, COP_nominal = 4.64, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.1, mEva_flow_nominal = 1000 * 0.03785, mCon_flow_nominal = 1000 * 0.04732, TEvaLvg_nominal = 273.15 + 4.44, TConLvg_nominal = 273.15 + 32.01, TEvaLvgMin = 273.15 + 3.33, TEvaLvgMax = 273.15 + 7.78, TConLvgMin = 273.15 + 17.04, TConLvgMax = 273.15 + 35.78, capFunT = {-3.474613E-01,4.071500E-01,-3.270717E-02,1.187286E-02,-3.117876E-04,5.854731E-04}, EIRFunT = {6.522319E-01,-1.649356E-02,2.777675E-04,3.580800E-03,3.253181E-04,-2.452307E-04}, EIRFunPLR = {3.303041E-01,-1.499923E-03,4.911711E-06,3.166646E-01,4.011833E-01,1.242191E-03,0.000000E+00,-4.559734E-02,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 960kW/4.64COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1023kW_5_81COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1023kW_5_81COP_Vanes

ReformEIRChiller York YT 1023kW/5.81COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.06Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 35.51Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1023300Reference capacity (negative number) [W]
RealCOP_nominal5.81Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02366Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04732Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-3.395788E-01,-3.084319E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.129429E-01,-1.403780E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.511511E-01,8.555669E-03,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.34Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 40.55Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1023kW_5_81COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1023300, COP_nominal = 5.81, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.06, mEva_flow_nominal = 1000 * 0.02366, mCon_flow_nominal = 1000 * 0.04732, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 35.51, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 18.34, TConLvgMax = 273.15 + 40.55, capFunT = {-3.395788E-01,-3.084319E-02,-5.520572E-03,1.112148E-01,-2.662980E-03,5.099892E-03}, EIRFunT = {6.129429E-01,-1.403780E-02,1.331529E-03,-2.182097E-04,5.502817E-04,-1.092920E-03}, EIRFunPLR = {2.511511E-01,8.555669E-03,-3.399815E-05,-2.271964E-01,1.450679E+00,-6.729414E-03,0.000000E+00,-4.981512E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1023kW/5.81COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1030kW_8_58COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1030kW_8_58COP_Vanes

ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.08Minimum part unload ratio
RealPLRMin0.08Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 20.86Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1030300Reference capacity (negative number) [W]
RealCOP_nominal8.58Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02378Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.03407Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.367679E-01,2.637864E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.347930E-01,-1.901560E-03,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.869427E-01,-1.316341E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.86Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.69Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PEH_1030kW_8_58COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1030300, COP_nominal = 8.58, PLRMin = 0.08, PLRMinUnl = 0.08, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.02378, mCon_flow_nominal = 1000 * 0.03407, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 20.86, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 20.86, TConLvgMax = 273.15 + 32.69, capFunT = {6.367679E-01,2.637864E-02,-4.503997E-03,2.614644E-02,-1.509627E-03,3.809305E-03}, EIRFunT = {5.347930E-01,-1.901560E-03,-1.999168E-03,2.601989E-02,-1.174414E-04,4.209479E-04}, EIRFunPLR = {3.869427E-01,-1.316341E-03,4.231383E-05,-9.777673E-02,8.539824E-01,-7.526877E-04,0.000000E+00,-1.180591E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PEH 1030kW/8.58COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1048kW_6_06COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1048kW_6_06COP_Vanes

ReformEIRChiller York YT 1048kW/6.06COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.06Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 34.59Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1047900Reference capacity (negative number) [W]
RealCOP_nominal6.06Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04542Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05678Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{5.846663E-01,1.059863E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{7.745270E-01,-3.256346E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{5.753623E-01,-1.409335E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.43Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 39.72Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1048kW_6_06COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1047900, COP_nominal = 6.06, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.06, mEva_flow_nominal = 1000 * 0.04542, mCon_flow_nominal = 1000 * 0.05678, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 34.59, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 20.43, TConLvgMax = 273.15 + 39.72, capFunT = {5.846663E-01,1.059863E-02,-5.058695E-03,3.006085E-02,-9.364366E-04,2.597223E-03}, EIRFunT = {7.745270E-01,-3.256346E-02,2.992117E-03,-5.274460E-03,6.701377E-04,-1.236258E-03}, EIRFunPLR = {5.753623E-01,-1.409335E-02,-5.983885E-06,6.063425E-01,-3.090569E-01,1.412467E-02,0.000000E+00,1.296066E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1048kW/6.06COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1055kW_5_96COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1055kW_5_96COP_Vanes

ReformEIRChiller York YT 1055kW/5.96COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.06Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 34.63Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1055000Reference capacity (negative number) [W]
RealCOP_nominal5.96Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02839Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05678Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-2.707500E-01,-6.904583E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.864611E-01,-1.981483E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.585491E-01,8.250769E-03,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.24Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 39.89Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1055kW_5_96COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1055000, COP_nominal = 5.96, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.06, mEva_flow_nominal = 1000 * 0.02839, mCon_flow_nominal = 1000 * 0.05678, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 34.63, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.24, TConLvgMax = 273.15 + 39.89, capFunT = {-2.707500E-01,-6.904583E-02,-2.862217E-03,1.116660E-01,-2.741006E-03,5.573759E-03}, EIRFunT = {5.864611E-01,-1.981483E-02,1.189656E-03,4.468905E-03,4.366968E-04,-7.679079E-04}, EIRFunPLR = {2.585491E-01,8.250769E-03,-3.231494E-05,-8.921620E-02,1.025668E+00,-6.495267E-03,0.000000E+00,-2.179388E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1055kW/5.96COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1076kW_5_52COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1076kW_5_52COP_Vanes

ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.30Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1076100Reference capacity (negative number) [W]
RealCOP_nominal5.52Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03186Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04744Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{8.850533E-01,2.837149E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{7.658820E-01,1.245831E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-4.774361E-01,5.162751E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.50Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.15Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1076kW_5_52COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1076100, COP_nominal = 5.52, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.03186, mCon_flow_nominal = 1000 * 0.04744, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 31.30, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 19.50, TConLvgMax = 273.15 + 32.15, capFunT = {8.850533E-01,2.837149E-02,-5.511387E-03,8.194635E-03,-6.603948E-04,2.956238E-03}, EIRFunT = {7.658820E-01,1.245831E-02,-4.811737E-03,-2.449180E-03,1.633990E-04,1.270390E-03}, EIRFunPLR = {-4.774361E-01,5.162751E-02,-5.614109E-05,-2.035828E-01,1.353459E+00,-4.892949E-02,0.000000E+00,2.956492E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1076kW/5.52COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1080kW_7_39COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1080kW_7_39COP_Vanes

ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 28.18Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1079600Reference capacity (negative number) [W]
RealCOP_nominal7.39Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03186Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06416Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.621590E-01,-5.637755E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{2.583099E-01,-5.295487E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-2.528901E-01,5.293978E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.34Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 28.77Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHE_1080kW_7_39COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1079600, COP_nominal = 7.39, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.03186, mCon_flow_nominal = 1000 * 0.06416, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 28.18, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 20.34, TConLvgMax = 273.15 + 28.77, capFunT = {1.621590E-01,-5.637755E-02,-2.763571E-03,7.658390E-02,-2.167501E-03,4.940163E-03}, EIRFunT = {2.583099E-01,-5.295487E-02,5.742775E-05,3.724845E-02,-1.705687E-04,7.265593E-04}, EIRFunPLR = {-2.528901E-01,5.293978E-02,-1.671838E-05,-7.241218E-02,1.197879E+00,-5.205361E-02,0.000000E+00,1.156312E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHE 1080kW/7.39COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1090kW_7_57COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1090kW_7_57COP_VSD

ReformEIRChiller York YT 1090kW/7.57COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.14Minimum part unload ratio
RealPLRMin0.14Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 28.52Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1090100Reference capacity (negative number) [W]
RealCOP_nominal7.57Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06782Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{5.432784E-01,4.854908E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{8.635874E-01,-6.482460E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-1.594094E+00,1.294337E-01,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.00Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 30.79Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1090kW_7_57COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1090100, COP_nominal = 7.57, PLRMin = 0.14, PLRMinUnl = 0.14, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.06782, mCon_flow_nominal = 1000 * 0.05142, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 28.52, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 19.00, TConLvgMax = 273.15 + 30.79, capFunT = {5.432784E-01,4.854908E-02,-8.778732E-04,2.814444E-02,-9.314140E-04,8.240584E-04}, EIRFunT = {8.635874E-01,-6.482460E-02,-2.524813E-04,2.842929E-02,-4.007377E-04,1.830138E-03}, EIRFunPLR = {-1.594094E+00,1.294337E-01,-2.100100E-04,1.659018E+00,-2.605622E+00,-1.199783E-01,0.000000E+00,3.435191E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1090kW/7.57COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1104kW_8_00COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1104kW_8_00COP_Vanes

ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.08Minimum part unload ratio
RealPLRMin0.08Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 22.59Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1104200Reference capacity (negative number) [W]
RealCOP_nominal8.00Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02423Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.03028Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{7.757836E-01,1.723720E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{7.355874E-01,-1.291195E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.216357E-01,6.972382E-03,5...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.67Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.22Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 22.59Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.29Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PEH_1104kW_8_00COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1104200, COP_nominal = 8.00, PLRMin = 0.08, PLRMinUnl = 0.08, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.02423, mCon_flow_nominal = 1000 * 0.03028, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 22.59, TEvaLvgMin = 273.15 + 6.67, TEvaLvgMax = 273.15 + 12.22, TConLvgMin = 273.15 + 22.59, TConLvgMax = 273.15 + 34.29, capFunT = {7.757836E-01,1.723720E-02,-2.761789E-03,1.560171E-02,-1.133168E-03,3.042701E-03}, EIRFunT = {7.355874E-01,-1.291195E-02,-1.168928E-03,1.454443E-02,-4.975714E-06,4.941841E-04}, EIRFunPLR = {2.216357E-01,6.972382E-03,5.022616E-05,-3.939145E-02,9.582611E-01,-9.691500E-03,0.000000E+00,-1.039758E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PEH 1104kW/8.00COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1125kW_4_89COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1125kW_4_89COP_Vanes

ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.01Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 36.27Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1125300Reference capacity (negative number) [W]
RealCOP_nominal4.89Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02776Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.02618Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{3.738655E-01,-1.966419E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{4.744658E-01,-3.998991E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.526188E-01,-2.052741E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 26.10Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.56Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHE_1125kW_4_89COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1125300, COP_nominal = 4.89, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.01, mEva_flow_nominal = 1000 * 0.02776, mCon_flow_nominal = 1000 * 0.02618, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 36.27, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 26.10, TConLvgMax = 273.15 + 36.56, capFunT = {3.738655E-01,-1.966419E-02,-1.212112E-03,3.549468E-02,-5.800042E-04,1.250514E-03}, EIRFunT = {4.744658E-01,-3.998991E-02,-8.170569E-05,1.686296E-02,8.315397E-05,1.607491E-04}, EIRFunPLR = {3.526188E-01,-2.052741E-03,5.127782E-06,-3.558764E-01,1.168571E+00,1.752891E-03,0.000000E+00,-1.609826E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHE 1125kW/4.89COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1125kW_7_92COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1125kW_7_92COP_VSD

ReformEIRChiller York YT 1125kW/7.92COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 18.64Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1125300Reference capacity (negative number) [W]
RealCOP_nominal7.92Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03243Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05173Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.825851E-01,-1.890742E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.772525E-01,-1.573620E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.110875E-01,-5.972965E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.64Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 31.75Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1125kW_7_92COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1125300, COP_nominal = 7.92, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.03243, mCon_flow_nominal = 1000 * 0.05173, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 18.64, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 18.64, TConLvgMax = 273.15 + 31.75, capFunT = {-1.825851E-01,-1.890742E-02,-1.452495E-03,9.494132E-02,-2.160634E-03,2.833148E-03}, EIRFunT = {6.772525E-01,-1.573620E-02,1.805356E-03,2.061048E-02,5.587604E-04,-2.014421E-03}, EIRFunPLR = {3.110875E-01,-5.972965E-03,-8.888194E-05,-5.317766E-01,1.932563E+00,1.040312E-02,0.000000E+00,-7.660775E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1125kW/7.92COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1129kW_7_19COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1129kW_7_19COP_Vanes

ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.05Maximum part load ratio
RealPLRMinUnl0.15Minimum part unload ratio
RealPLRMin0.15Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.87Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1128800Reference capacity (negative number) [W]
RealCOP_nominal7.19Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02776Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{4.234935E-02,-6.711406E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{2.480712E-01,-5.163331E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.681887E-01,-1.329414E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.75Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 30.64Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHE_1129kW_7_19COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1128800, COP_nominal = 7.19, PLRMin = 0.15, PLRMinUnl = 0.15, PLRMax = 1.05, mEva_flow_nominal = 1000 * 0.02776, mCon_flow_nominal = 1000 * 0.05142, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 29.87, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 20.75, TConLvgMax = 273.15 + 30.64, capFunT = {4.234935E-02,-6.711406E-02,-2.677761E-03,8.534835E-02,-2.240897E-03,5.028453E-03}, EIRFunT = {2.480712E-01,-5.163331E-02,-3.517164E-04,3.943482E-02,-3.224045E-04,9.124398E-04}, EIRFunPLR = {2.681887E-01,-1.329414E-03,-1.542108E-05,5.321500E-01,-2.230911E-01,2.236942E-03,0.000000E+00,4.101272E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHE 1129kW/7.19COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1143kW_6_57COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1143kW_6_57COP_VSD

ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.79Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1142900Reference capacity (negative number) [W]
RealCOP_nominal6.57Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02593Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 10.00Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{7.863855E-01,3.259744E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.612126E-01,-1.211702E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-1.922490E-02,1.026695E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.02Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 33.61Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1143kW_6_57COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1142900, COP_nominal = 6.57, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.02593, mCon_flow_nominal = 1000 * 0.05142, TEvaLvg_nominal = 273.15 + 10.00, TConLvg_nominal = 273.15 + 32.79, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 19.02, TConLvgMax = 273.15 + 33.61, capFunT = {7.863855E-01,3.259744E-02,-1.927704E-03,4.333411E-03,-6.022390E-04,1.809424E-03}, EIRFunT = {9.612126E-01,-1.211702E-02,1.782802E-04,-2.807827E-03,2.421828E-04,1.165934E-05}, EIRFunPLR = {-1.922490E-02,1.026695E-02,-3.079249E-05,1.432686E-01,4.844691E-01,-8.952298E-03,0.000000E+00,3.774796E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1143kW/6.57COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1157kW_5_62COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1157kW_5_62COP_VSD

ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.01Maximum part load ratio
RealPLRMinUnl0.19Minimum part unload ratio
RealPLRMin0.19Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.34Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1156900Reference capacity (negative number) [W]
RealCOP_nominal5.62Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02801Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.03186Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.095494E+00,-5.546137E-03,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.221566E+00,-2.771462E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.260949E-01,-1.619690E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.97Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.50Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1157kW_5_62COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1156900, COP_nominal = 5.62, PLRMin = 0.19, PLRMinUnl = 0.19, PLRMax = 1.01, mEva_flow_nominal = 1000 * 0.02801, mCon_flow_nominal = 1000 * 0.03186, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 31.34, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 21.97, TConLvgMax = 273.15 + 34.50, capFunT = {1.095494E+00,-5.546137E-03,-5.186584E-04,1.420446E-03,-2.801603E-04,1.007864E-03}, EIRFunT = {1.221566E+00,-2.771462E-02,1.220059E-03,-2.228215E-02,7.578438E-04,-8.532836E-04}, EIRFunPLR = {2.260949E-01,-1.619690E-02,2.953765E-06,4.956395E-01,1.180777E-01,1.582337E-02,0.000000E+00,1.675772E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1157kW/5.62COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1196kW_6_50COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1196kW_6_50COP_Vanes

ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.65Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1195600Reference capacity (negative number) [W]
RealCOP_nominal6.50Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03426Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04252Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.22Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.006647E+00,-3.596242E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.001094E+00,-1.641469E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.659565E-01,2.824668E-03,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.67Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.22Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.72Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 33.03Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1196kW_6_50COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1195600, COP_nominal = 6.50, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.03426, mCon_flow_nominal = 1000 * 0.04252, TEvaLvg_nominal = 273.15 + 7.22, TConLvg_nominal = 273.15 + 31.65, TEvaLvgMin = 273.15 + 6.67, TEvaLvgMax = 273.15 + 12.22, TConLvgMin = 273.15 + 21.72, TConLvgMax = 273.15 + 33.03, capFunT = {1.006647E+00,-3.596242E-02,-2.549306E-03,2.690324E-02,-1.255051E-03,3.669880E-03}, EIRFunT = {1.001094E+00,-1.641469E-02,3.314844E-04,-1.095655E-02,5.687863E-04,-4.694134E-04}, EIRFunPLR = {1.659565E-01,2.824668E-03,-4.941235E-05,9.544016E-01,-7.843794E-01,-1.991887E-04,0.000000E+00,6.294448E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1196kW/6.50COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1213kW_7_78COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1213kW_7_78COP_Vanes

ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.17Minimum part unload ratio
RealPLRMin0.17Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.63Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1213200Reference capacity (negative number) [W]
RealCOP_nominal7.78Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03243Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04782Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{7.578317E-01,-2.467497E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.009816E+00,-1.640134E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.257912E-01,3.697616E-03,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.63Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 30.97Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1213kW_7_78COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1213200, COP_nominal = 7.78, PLRMin = 0.17, PLRMinUnl = 0.17, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.03243, mCon_flow_nominal = 1000 * 0.04782, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 19.63, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 19.63, TConLvgMax = 273.15 + 30.97, capFunT = {7.578317E-01,-2.467497E-02,-1.185171E-03,3.095499E-02,-1.160103E-03,2.330164E-03}, EIRFunT = {1.009816E+00,-1.640134E-02,7.295439E-04,-5.050832E-03,6.901476E-04,-9.104064E-04}, EIRFunPLR = {2.257912E-01,3.697616E-03,-2.645195E-05,7.936322E-01,-4.424994E-01,-2.424456E-03,0.000000E+00,4.078706E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1213kW/7.78COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1231kW_6_18COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1231kW_6_18COP_Vanes

ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.47Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1230800Reference capacity (negative number) [W]
RealCOP_nominal6.18Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03533Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.0511Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.253381E+00,8.875124E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{8.880010E-01,-9.202757E-03,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.651794E-01,-3.089335E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.98Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 31.25Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PEH_1231kW_6_18COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1230800, COP_nominal = 6.18, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.03533, mCon_flow_nominal = 1000 * 0.0511, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 29.47, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 20.98, TConLvgMax = 273.15 + 31.25, capFunT = {1.253381E+00,8.875124E-02,-8.323384E-03,-1.024474E-02,-6.751294E-04,2.456063E-03}, EIRFunT = {8.880010E-01,-9.202757E-03,-5.021594E-03,-9.074393E-03,2.554841E-04,2.313326E-03}, EIRFunPLR = {1.651794E-01,-3.089335E-03,2.301100E-04,1.104907E+00,-8.157905E-01,-8.477359E-03,0.000000E+00,6.893449E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PEH 1231kW/6.18COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1234kW_5_39COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1234kW_5_39COP_VSD

ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.19Minimum part unload ratio
RealPLRMin0.19Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 35.73Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1234300Reference capacity (negative number) [W]
RealCOP_nominal5.39Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02593Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.03861Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.134255E-01,1.092476E-01,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{4.746375E-01,9.120326E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.207212E-01,-9.914826E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 22.24Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.28Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1234kW_5_39COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1234300, COP_nominal = 5.39, PLRMin = 0.19, PLRMinUnl = 0.19, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.02593, mCon_flow_nominal = 1000 * 0.03861, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 35.73, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 22.24, TConLvgMax = 273.15 + 36.28, capFunT = {6.134255E-01,1.092476E-01,-7.352739E-03,-2.589985E-03,-3.793512E-04,1.839978E-03}, EIRFunT = {4.746375E-01,9.120326E-02,-7.295060E-03,-5.662273E-03,1.928027E-04,8.244779E-04}, EIRFunPLR = {1.207212E-01,-9.914826E-03,1.854918E-05,9.880331E-01,-8.955866E-01,8.894574E-03,0.000000E+00,8.005552E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1234kW/5.39COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1259kW_6_26COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1259kW_6_26COP_Vanes

ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.18Minimum part unload ratio
RealPLRMin0.18Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 35.80Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1258900Reference capacity (negative number) [W]
RealCOP_nominal6.26Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02593Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.03823Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.013444E+00,-3.162384E-03,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{7.661241E-01,1.157734E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.602131E-02,2.433945E-02,6...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 22.61Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.74Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1259kW_6_26COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1258900, COP_nominal = 6.26, PLRMin = 0.18, PLRMinUnl = 0.18, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.02593, mCon_flow_nominal = 1000 * 0.03823, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 35.80, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 22.61, TConLvgMax = 273.15 + 36.74, capFunT = {1.013444E+00,-3.162384E-03,-4.418949E-03,1.601141E-02,-1.029678E-03,3.508932E-03}, EIRFunT = {7.661241E-01,1.157734E-02,-8.937094E-04,-6.824770E-03,5.288283E-04,-7.378113E-04}, EIRFunPLR = {4.602131E-02,2.433945E-02,6.394526E-05,-3.648563E-01,1.854759E+00,-2.809346E-02,0.000000E+00,-4.821515E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1259kW/6.26COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_1259kW_6_45COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_1259kW_6_45COP_Vanes

ReformEIRChiller York YK 1259kW/6.45COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.18Minimum part unload ratio
RealPLRMin0.18Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.24Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1258900Reference capacity (negative number) [W]
RealCOP_nominal6.45Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.02631Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06246Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{7.917669E-01,7.718144E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.207755E+00,2.704147E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-3.830726E-01,3.222162E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.63Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.83Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YK_1259kW_6_45COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1258900, COP_nominal = 6.45, PLRMin = 0.18, PLRMinUnl = 0.18, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.02631, mCon_flow_nominal = 1000 * 0.06246, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 32.24, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 19.63, TConLvgMax = 273.15 + 32.83, capFunT = {7.917669E-01,7.718144E-02,-1.868147E-03,2.168367E-02,-9.454040E-04,-1.251512E-04}, EIRFunT = {1.207755E+00,2.704147E-02,-1.882949E-05,-5.234106E-02,1.851447E-03,-2.375891E-03}, EIRFunPLR = {-3.830726E-01,3.222162E-02,7.399276E-05,3.649000E-01,1.497231E+00,-3.597905E-02,0.000000E+00,-4.321713E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YK 1259kW/6.45COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1266kW_4_39COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1266kW_4_39COP_Vanes

ReformEIRChiller York YT 1266kW/4.39COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.05Maximum part load ratio
RealPLRMinUnl0.11Minimum part unload ratio
RealPLRMin0.11Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 41.44Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1266000Reference capacity (negative number) [W]
RealCOP_nominal4.39Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03533Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05773Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.556501E-03,-4.410896E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.265473E-01,5.028662E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.253346E+00,-3.406609E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.28Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 42.31Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1266kW_4_39COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1266000, COP_nominal = 4.39, PLRMin = 0.11, PLRMinUnl = 0.11, PLRMax = 1.05, mEva_flow_nominal = 1000 * 0.03533, mCon_flow_nominal = 1000 * 0.05773, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 41.44, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.28, TConLvgMax = 273.15 + 42.31, capFunT = {1.556501E-03,-4.410896E-02,-1.854492E-03,6.411584E-02,-1.204698E-03,3.060359E-03}, EIRFunT = {1.265473E-01,5.028662E-02,-4.704162E-03,7.913033E-03,3.096000E-04,-4.283498E-04}, EIRFunPLR = {1.253346E+00,-3.406609E-02,1.893094E-04,2.554443E-01,-1.655620E+00,2.220865E-02,0.000000E+00,1.319681E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1266kW/4.39COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1284kW_6_20COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1284kW_6_20COP_Vanes

ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.46Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1283500Reference capacity (negative number) [W]
RealCOP_nominal6.20Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03684Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05337Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.115795E+00,-2.963853E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{7.586434E-01,-1.231609E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{9.435414E-01,-6.553709E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.55Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 30.85Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1284kW_6_20COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1283500, COP_nominal = 6.20, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.03684, mCon_flow_nominal = 1000 * 0.05337, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 29.46, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 19.55, TConLvgMax = 273.15 + 30.85, capFunT = {1.115795E+00,-2.963853E-02,-1.135671E-03,4.184083E-03,-4.382921E-04,2.096512E-03}, EIRFunT = {7.586434E-01,-1.231609E-02,1.784584E-03,-2.678401E-03,6.302421E-04,-1.385469E-03}, EIRFunPLR = {9.435414E-01,-6.553709E-02,1.115089E-04,1.530548E+00,-1.486930E+00,6.031382E-02,0.000000E+00,7.320523E-02,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1284kW/6.20COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1294kW_7_61COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1294kW_7_61COP_Vanes

ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.16Minimum part unload ratio
RealPLRMin0.16Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 20.18Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1294100Reference capacity (negative number) [W]
RealCOP_nominal7.61Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03243Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04732Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{8.542077E-01,-5.459736E-03,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.167182E+00,-4.534610E-03,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-2.942311E-02,2.842914E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.18Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 31.56Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1294kW_7_61COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1294100, COP_nominal = 7.61, PLRMin = 0.16, PLRMinUnl = 0.16, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.03243, mCon_flow_nominal = 1000 * 0.04732, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 20.18, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 20.18, TConLvgMax = 273.15 + 31.56, capFunT = {8.542077E-01,-5.459736E-03,-1.943025E-03,1.670770E-02,-9.079473E-04,2.332448E-03}, EIRFunT = {1.167182E+00,-4.534610E-03,-2.394329E-03,-1.568154E-02,4.922543E-04,5.971107E-04}, EIRFunPLR = {-2.942311E-02,2.842914E-02,-1.096497E-05,-1.072984E+00,3.343046E+00,-2.769791E-02,0.000000E+00,-1.251621E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1294kW/7.61COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1329kW_5_38COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1329kW_5_38COP_Vanes

ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.29Minimum part unload ratio
RealPLRMin0.29Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 34.80Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1329300Reference capacity (negative number) [W]
RealCOP_nominal5.38Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04732Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07098Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{2.971340E-01,1.063097E-01,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.460623E-01,3.685465E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-9.512023E-02,8.704652E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 26.77Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 41.98Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHE_1329kW_5_38COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1329300, COP_nominal = 5.38, PLRMin = 0.29, PLRMinUnl = 0.29, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.04732, mCon_flow_nominal = 1000 * 0.07098, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 34.80, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 26.77, TConLvgMax = 273.15 + 41.98, capFunT = {2.971340E-01,1.063097E-01,-4.449876E-03,2.540435E-02,-5.696223E-04,1.269921E-04}, EIRFunT = {9.460623E-01,3.685465E-02,-7.530867E-04,-1.753701E-02,5.832929E-04,-1.143458E-03}, EIRFunPLR = {-9.512023E-02,8.704652E-03,-6.499682E-06,1.336749E+00,-6.968012E-01,-8.318175E-03,0.000000E+00,4.497796E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHE 1329kW/5.38COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1350kW_7_90COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1350kW_7_90COP_VSD

ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.19Minimum part unload ratio
RealPLRMin0.19Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.60Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1350400Reference capacity (negative number) [W]
RealCOP_nominal7.90Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03684Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05337Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.060586E+00,-2.817204E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.661627E-01,-1.568504E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.868582E+00,-1.412449E-01,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.55Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 30.85Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1350kW_7_90COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1350400, COP_nominal = 7.90, PLRMin = 0.19, PLRMinUnl = 0.19, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.03684, mCon_flow_nominal = 1000 * 0.05337, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 19.60, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 19.55, TConLvgMax = 273.15 + 30.85, capFunT = {1.060586E+00,-2.817204E-02,-1.079479E-03,3.977058E-03,-4.166057E-04,1.992778E-03}, EIRFunT = {9.661627E-01,-1.568504E-02,2.272739E-03,-3.411051E-03,8.026386E-04,-1.764450E-03}, EIRFunPLR = {1.868582E+00,-1.412449E-01,2.563520E-04,8.432680E-01,-1.538206E+00,1.292323E-01,0.000000E+00,-3.507772E-02,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1350kW/7.90COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1368kW_7_35COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1368kW_7_35COP_VSD

ReformEIRChiller York YT 1368kW/7.35COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 28.80Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1367900Reference capacity (negative number) [W]
RealCOP_nominal7.35Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05047Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07571Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.988920E-01,-1.019014E-01...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.787713E-01,-1.943742E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-4.466479E-01,1.188856E-01,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.76Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.51Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1368kW_7_35COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1367900, COP_nominal = 7.35, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.05047, mCon_flow_nominal = 1000 * 0.07571, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 28.80, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.76, TConLvgMax = 273.15 + 34.51, capFunT = {-1.988920E-01,-1.019014E-01,-4.605586E-03,1.364167E-01,-4.142785E-03,8.790965E-03}, EIRFunT = {1.787713E-01,-1.943742E-02,-5.155001E-03,4.314534E-02,-5.446713E-04,2.049096E-03}, EIRFunPLR = {-4.466479E-01,1.188856E-01,-5.385997E-05,-2.756308E+00,4.709118E+00,-1.161211E-01,0.000000E+00,-5.402852E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1368kW/7.35COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1372kW_7_49COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1372kW_7_49COP_Vanes

ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.11Maximum part load ratio
RealPLRMinUnl0.41Minimum part unload ratio
RealPLRMin0.41Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 28.80Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1371500Reference capacity (negative number) [W]
RealCOP_nominal7.49Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05047Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07571Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{3.397637E-01,3.431595E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.033692E+00,3.558404E-02,3...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.723036E-01,8.571830E-03,4...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.87Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.26Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHE_1372kW_7_49COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1371500, COP_nominal = 7.49, PLRMin = 0.41, PLRMinUnl = 0.41, PLRMax = 1.11, mEva_flow_nominal = 1000 * 0.05047, mCon_flow_nominal = 1000 * 0.07571, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 28.80, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.87, TConLvgMax = 273.15 + 34.26, capFunT = {3.397637E-01,3.431595E-02,-1.008753E-02,5.766544E-02,-2.300721E-03,6.035544E-03}, EIRFunT = {1.033692E+00,3.558404E-02,3.589722E-03,-2.717762E-02,1.379031E-03,-4.158610E-03}, EIRFunPLR = {4.723036E-01,8.571830E-03,4.576667E-05,-1.502847E+00,3.731872E+00,-1.107635E-02,0.000000E+00,-1.669562E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHE 1372kW/7.49COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1396kW_7_35COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1396kW_7_35COP_Vanes

ReformEIRChiller York YT 1396kW/7.35COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 28.90Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1396100Reference capacity (negative number) [W]
RealCOP_nominal7.35Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05047Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07571Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{3.601322E-02,-9.771124E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{4.546708E-01,3.725193E-03,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-2.549993E-01,1.161730E-01,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.94Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.67Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1396kW_7_35COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1396100, COP_nominal = 7.35, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.05047, mCon_flow_nominal = 1000 * 0.07571, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 28.90, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.94, TConLvgMax = 273.15 + 34.67, capFunT = {3.601322E-02,-9.771124E-02,-2.845248E-03,1.124508E-01,-3.477685E-03,7.688650E-03}, EIRFunT = {4.546708E-01,3.725193E-03,-1.145409E-04,1.695408E-02,3.224089E-04,-1.265009E-03}, EIRFunPLR = {-2.549993E-01,1.161730E-01,1.913023E-06,-3.306674E+00,5.813195E+00,-1.164290E-01,0.000000E+00,-1.247308E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1396kW/7.35COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1403kW_7_09COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1403kW_7_09COP_VSD

ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.17Minimum part unload ratio
RealPLRMin0.17Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 21.78Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1403100Reference capacity (negative number) [W]
RealCOP_nominal7.09Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03426Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04252Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{8.573696E-01,-3.077045E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.172049E+00,-1.768334E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.386665E-01,4.836823E-03,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.67Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.22Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.77Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 33.09Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1403kW_7_09COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1403100, COP_nominal = 7.09, PLRMin = 0.17, PLRMinUnl = 0.17, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.03426, mCon_flow_nominal = 1000 * 0.04252, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 21.78, TEvaLvgMin = 273.15 + 6.67, TEvaLvgMax = 273.15 + 12.22, TConLvgMin = 273.15 + 21.77, TConLvgMax = 273.15 + 33.09, capFunT = {8.573696E-01,-3.077045E-02,-2.171254E-03,2.296255E-02,-1.067689E-03,3.125156E-03}, EIRFunT = {1.172049E+00,-1.768334E-02,3.356460E-04,-1.485826E-02,6.930197E-04,-5.461447E-04}, EIRFunPLR = {1.386665E-01,4.836823E-03,-5.406708E-05,-4.609915E-01,2.214035E+00,-1.925694E-03,0.000000E+00,-9.302446E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1403kW/7.09COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1403kW_6_94COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1403kW_6_94COP_VSD

ReformEIRChiller York YT 1403kW/6.94COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.13Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.50Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1403100Reference capacity (negative number) [W]
RealCOP_nominal6.94Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05047Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05047Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.721714E+00,8.594308E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.348381E-01,-1.779962E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.005500E+00,3.906974E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.33Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.28Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1403kW_6_94COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1403100, COP_nominal = 6.94, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.13, mEva_flow_nominal = 1000 * 0.05047, mCon_flow_nominal = 1000 * 0.05047, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 31.50, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 21.33, TConLvgMax = 273.15 + 36.28, capFunT = {-1.721714E+00,8.594308E-02,-1.220844E-02,2.037396E-01,-4.654718E-03,4.701301E-03}, EIRFunT = {5.348381E-01,-1.779962E-02,-4.925343E-03,1.066975E-02,9.573974E-05,1.717894E-03}, EIRFunPLR = {1.005500E+00,3.906974E-02,-7.721440E-06,-5.794857E+00,9.282464E+00,-3.755116E-02,0.000000E+00,-3.524493E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1403kW/6.94COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1407kW_7_14COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1407kW_7_14COP_VSD

ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.07Maximum part load ratio
RealPLRMinUnl0.30Minimum part unload ratio
RealPLRMin0.30Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 28.96Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1406600Reference capacity (negative number) [W]
RealCOP_nominal7.14Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05047Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07571Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.098635E-01,-4.154795E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.391346E-01,5.159383E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.754461E-01,6.701607E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.66Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.28Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHE_1407kW_7_14COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1406600, COP_nominal = 7.14, PLRMin = 0.30, PLRMinUnl = 0.30, PLRMax = 1.07, mEva_flow_nominal = 1000 * 0.05047, mCon_flow_nominal = 1000 * 0.07571, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 28.96, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.66, TConLvgMax = 273.15 + 34.28, capFunT = {1.098635E-01,-4.154795E-02,-6.348039E-03,8.801570E-02,-2.631387E-03,5.846073E-03}, EIRFunT = {6.391346E-01,5.159383E-02,-5.750293E-03,-9.196660E-03,7.380570E-04,-4.665422E-04}, EIRFunPLR = {2.754461E-01,6.701607E-02,-8.579222E-05,-4.299994E+00,7.901098E+00,-6.298243E-02,0.000000E+00,-2.924081E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHE 1407kW/7.14COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_1407kW_6_60COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_1407kW_6_60COP_Vanes

ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.05Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.45Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1406600Reference capacity (negative number) [W]
RealCOP_nominal6.60Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04038Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05804Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{4.857520E-01,-1.139327E-01,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.392120E-01,3.430098E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-6.446736E-01,5.352860E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.90Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.26Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PFH_1407kW_6_60COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1406600, COP_nominal = 6.60, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.05, mEva_flow_nominal = 1000 * 0.04038, mCon_flow_nominal = 1000 * 0.05804, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 29.45, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 21.90, TConLvgMax = 273.15 + 32.26, capFunT = {4.857520E-01,-1.139327E-01,-1.036160E-02,1.146315E-01,-4.547626E-03,1.263077E-02}, EIRFunT = {9.392120E-01,3.430098E-02,-5.178425E-03,-2.274002E-02,6.827442E-04,7.649464E-04}, EIRFunPLR = {-6.446736E-01,5.352860E-02,1.582353E-06,2.669373E-01,1.497456E+00,-5.364380E-02,0.000000E+00,-1.183319E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PFH 1407kW/6.60COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1407kW_6_04COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1407kW_6_04COP_VSD

ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 34.63Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1406600Reference capacity (negative number) [W]
RealCOP_nominal6.04Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06057Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07571Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{9.006457E-01,-1.139681E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.174615E+00,-1.237741E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-5.839828E-01,4.640814E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.11Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 37.42Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1407kW_6_04COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1406600, COP_nominal = 6.04, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.06057, mCon_flow_nominal = 1000 * 0.07571, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 34.63, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 18.11, TConLvgMax = 273.15 + 37.42, capFunT = {9.006457E-01,-1.139681E-02,-1.480623E-03,2.770949E-02,-9.617215E-04,1.812986E-03}, EIRFunT = {1.174615E+00,-1.237741E-02,-1.147159E-03,-2.996332E-02,8.901939E-04,-2.302077E-04}, EIRFunPLR = {-5.839828E-01,4.640814E-02,-7.366007E-05,-1.926398E-01,2.597682E+00,-4.268655E-02,0.000000E+00,-8.666390E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1407kW/6.04COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1410kW_8_54COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1410kW_8_54COP_VSD

ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.18Minimum part unload ratio
RealPLRMin0.18Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.21Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1410100Reference capacity (negative number) [W]
RealCOP_nominal8.54Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05861Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{9.053779E-01,-1.615047E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.074067E+00,-6.702565E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-6.984658E-02,2.103714E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.05Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 30.63Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1410kW_8_54COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1410100, COP_nominal = 8.54, PLRMin = 0.18, PLRMinUnl = 0.18, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.04, mCon_flow_nominal = 1000 * 0.05861, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 19.21, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 19.05, TConLvgMax = 273.15 + 30.63, capFunT = {9.053779E-01,-1.615047E-02,-1.175290E-03,1.318125E-02,-5.919239E-04,1.756836E-03}, EIRFunT = {1.074067E+00,-6.702565E-02,3.043272E-04,6.055739E-03,4.615039E-04,3.375766E-04}, EIRFunPLR = {-6.984658E-02,2.103714E-02,5.767453E-05,5.267406E-01,6.390076E-01,-2.389231E-02,0.000000E+00,-6.097179E-02,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1410kW/8.54COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1442kW_6_61COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1442kW_6_61COP_VSD

ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.06Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.76Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1441800Reference capacity (negative number) [W]
RealCOP_nominal6.61Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05047Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05047Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-2.660651E-01,-2.114972E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.807134E-01,-2.285082E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-5.842314E-01,5.001539E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.72Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 41.41Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHE_1442kW_6_61COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1441800, COP_nominal = 6.61, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.06, mEva_flow_nominal = 1000 * 0.05047, mCon_flow_nominal = 1000 * 0.05047, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 31.76, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 19.72, TConLvgMax = 273.15 + 41.41, capFunT = {-2.660651E-01,-2.114972E-02,-3.928472E-04,9.573910E-02,-2.015949E-03,2.030045E-03}, EIRFunT = {6.807134E-01,-2.285082E-02,8.153057E-04,9.280487E-04,4.950540E-04,-6.106817E-04}, EIRFunPLR = {-5.842314E-01,5.001539E-02,-1.157444E-04,-3.287848E-03,1.916917E+00,-4.340928E-02,0.000000E+00,-4.222738E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHE 1442kW/6.61COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1459kW_6_40COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1459kW_6_40COP_VSD

ReformEIRChiller York YT 1459kW/6.40COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.17Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.89Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1459400Reference capacity (negative number) [W]
RealCOP_nominal6.40Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05047Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05047Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.194034E+00,2.466392E-01,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{-6.559788E-02,4.189764E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-1.614787E-01,6.417258E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.15Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 37.17Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1459kW_6_40COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1459400, COP_nominal = 6.40, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.17, mEva_flow_nominal = 1000 * 0.05047, mCon_flow_nominal = 1000 * 0.05047, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 31.89, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 21.15, TConLvgMax = 273.15 + 37.17, capFunT = {-1.194034E+00,2.466392E-01,-1.770803E-02,1.203228E-01,-2.570051E-03,8.497187E-04}, EIRFunT = {-6.559788E-02,4.189764E-02,-9.367876E-03,4.551296E-02,-5.411967E-04,1.453585E-03}, EIRFunPLR = {-1.614787E-01,6.417258E-02,1.317124E-05,-2.149029E+00,4.405653E+00,-6.621165E-02,0.000000E+00,-1.055839E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1459kW/6.40COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1484kW_9_96COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1484kW_9_96COP_VSD

ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.24Minimum part unload ratio
RealPLRMin0.24Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 17.08Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1484000Reference capacity (negative number) [W]
RealCOP_nominal9.96Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09085Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 4.44Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-9.759100E-01,-1.446866E-01...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{-6.183288E-01,-1.151565E-01...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.203029E-01,9.195177E-02,1...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.08Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.97Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHE_1484kW_9_96COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1484000, COP_nominal = 9.96, PLRMin = 0.24, PLRMinUnl = 0.24, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.09085, TEvaLvg_nominal = 273.15 + 4.44, TConLvg_nominal = 273.15 + 17.08, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.08, TConLvgMax = 273.15 + 35.97, capFunT = {-9.759100E-01,-1.446866E-01,-4.694254E-03,1.963005E-01,-4.543768E-03,8.998114E-03}, EIRFunT = {-6.183288E-01,-1.151565E-01,-1.663662E-04,1.539757E-01,-2.390058E-03,2.818373E-03}, EIRFunPLR = {2.203029E-01,9.195177E-02,1.943558E-05,-5.815422E+00,9.366237E+00,-9.299721E-02,0.000000E+00,-2.757689E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHE 1484kW/9.96COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1495kW_7_51COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1495kW_7_51COP_VSD

ReformEIRChiller York YT 1495kW/7.51COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.11Minimum part unload ratio
RealPLRMin0.11Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.92Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1494500Reference capacity (negative number) [W]
RealCOP_nominal7.51Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.0429Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06719Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.22Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.015487E-01,-1.630120E-01,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.954138E-01,-1.627980E-01,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{6.377828E-01,-3.620643E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.69Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 41.38Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1495kW_7_51COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1494500, COP_nominal = 7.51, PLRMin = 0.11, PLRMinUnl = 0.11, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.0429, mCon_flow_nominal = 1000 * 0.06719, TEvaLvg_nominal = 273.15 + 7.22, TConLvg_nominal = 273.15 + 29.92, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 18.69, TConLvgMax = 273.15 + 41.38, capFunT = {6.015487E-01,-1.630120E-01,9.951930E-03,7.452875E-02,-1.608224E-03,2.001891E-03}, EIRFunT = {1.954138E-01,-1.627980E-01,5.924232E-03,8.194832E-02,-8.723337E-04,7.443855E-04}, EIRFunPLR = {6.377828E-01,-3.620643E-02,-1.187858E-04,5.832958E-01,-9.230655E-01,4.307256E-02,0.000000E+00,6.079021E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1495kW/7.51COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_1519kW_7_10COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_1519kW_7_10COP_Vanes

ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.76Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1519200Reference capacity (negative number) [W]
RealCOP_nominal7.10Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03186Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.08139Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.244930E+00,-3.988254E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.087821E+00,-2.763242E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.209093E-01,-1.860468E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.71Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 33.53Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_WSC_1519kW_7_10COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1519200, COP_nominal = 7.10, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.03186, mCon_flow_nominal = 1000 * 0.08139, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 31.76, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 19.71, TConLvgMax = 273.15 + 33.53, capFunT = {1.244930E+00,-3.988254E-02,-8.293893E-03,3.053704E-02,-2.899547E-03,9.784227E-03}, EIRFunT = {1.087821E+00,-2.763242E-02,-3.692617E-03,-1.419848E-02,6.903140E-05,2.920296E-03}, EIRFunPLR = {4.209093E-01,-1.860468E-02,1.580518E-05,8.654910E-01,-6.538795E-01,1.786849E-02,0.000000E+00,3.759658E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay WSC 1519kW/7.10COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1558kW_5_81COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1558kW_5_81COP_VSD

ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.01Maximum part load ratio
RealPLRMinUnl0.19Minimum part unload ratio
RealPLRMin0.19Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.61Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1557800Reference capacity (negative number) [W]
RealCOP_nominal5.81Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03785Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.062937E+00,1.795402E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.228621E+00,-2.576180E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.269754E-01,-2.384434E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.93Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.69Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1558kW_5_81COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1557800, COP_nominal = 5.81, PLRMin = 0.19, PLRMinUnl = 0.19, PLRMax = 1.01, mEva_flow_nominal = 1000 * 0.03785, mCon_flow_nominal = 1000 * 0.05142, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 29.61, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 20.93, TConLvgMax = 273.15 + 32.69, capFunT = {1.062937E+00,1.795402E-02,-1.393291E-03,-9.669825E-04,-2.580121E-04,7.734796E-04}, EIRFunT = {1.228621E+00,-2.576180E-02,5.933105E-04,-2.005035E-02,6.691169E-04,-5.915039E-04}, EIRFunPLR = {3.269754E-01,-2.384434E-02,1.204600E-06,3.858219E-01,1.457104E-01,2.369999E-02,0.000000E+00,1.441457E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1558kW/5.81COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1586kW_5_53COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1586kW_5_53COP_VSD

ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.01Maximum part load ratio
RealPLRMinUnl0.19Minimum part unload ratio
RealPLRMin0.19Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 36.26Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1586000Reference capacity (negative number) [W]
RealCOP_nominal5.53Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03388Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.04669Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.132174E+00,8.236001E-04,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.223690E+00,-3.668987E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.381660E-01,-2.323866E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 23.36Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.72Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1586kW_5_53COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1586000, COP_nominal = 5.53, PLRMin = 0.19, PLRMinUnl = 0.19, PLRMax = 1.01, mEva_flow_nominal = 1000 * 0.03388, mCon_flow_nominal = 1000 * 0.04669, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 36.26, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 23.36, TConLvgMax = 273.15 + 36.72, capFunT = {1.132174E+00,8.236001E-04,-8.207587E-04,2.967657E-03,-3.898313E-04,1.015830E-03}, EIRFunT = {1.223690E+00,-3.668987E-02,4.038915E-04,-1.595573E-02,5.080640E-04,-7.276256E-05}, EIRFunPLR = {3.381660E-01,-2.323866E-02,-7.810564E-06,1.017389E+00,-8.328919E-01,2.371783E-02,0.000000E+00,4.701559E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1586kW/5.53COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1635kW_7_47COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1635kW_7_47COP_Vanes

ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.08Minimum part unload ratio
RealPLRMin0.08Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.47Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1635200Reference capacity (negative number) [W]
RealCOP_nominal7.47Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04416Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06624Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 4.44Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{8.307757E-01,-2.169411E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.029659E+00,-6.966329E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-6.247932E-02,1.538879E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.47Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.79Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PEH_1635kW_7_47COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1635200, COP_nominal = 7.47, PLRMin = 0.08, PLRMinUnl = 0.08, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.04416, mCon_flow_nominal = 1000 * 0.06624, TEvaLvg_nominal = 273.15 + 4.44, TConLvg_nominal = 273.15 + 19.47, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 19.47, TConLvgMax = 273.15 + 34.79, capFunT = {8.307757E-01,-2.169411E-02,-3.184578E-03,2.945840E-02,-1.412831E-03,3.405965E-03}, EIRFunT = {1.029659E+00,-6.966329E-02,2.674887E-03,9.677160E-04,5.197288E-04,1.456235E-04}, EIRFunPLR = {-6.247932E-02,1.538879E-02,4.295421E-05,6.945495E-01,2.544881E-01,-1.740972E-02,0.000000E+00,1.367965E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PEH 1635kW/7.47COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1635kW_6_36COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1635kW_6_36COP_Vanes

ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.18Minimum part unload ratio
RealPLRMin0.18Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 35.66Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1635200Reference capacity (negative number) [W]
RealCOP_nominal6.36Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03432Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05035Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{3.092875E-01,-3.293511E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.499856E-01,-6.235681E-03,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.206254E-01,-1.310337E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.44Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.54Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1635kW_6_36COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1635200, COP_nominal = 6.36, PLRMin = 0.18, PLRMinUnl = 0.18, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.03432, mCon_flow_nominal = 1000 * 0.05035, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 35.66, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 20.44, TConLvgMax = 273.15 + 36.54, capFunT = {3.092875E-01,-3.293511E-02,-4.782933E-03,6.860171E-02,-2.017588E-03,4.670722E-03}, EIRFunT = {6.499856E-01,-6.235681E-03,-2.219743E-04,8.417414E-03,2.314691E-04,-5.679479E-04}, EIRFunPLR = {4.206254E-01,-1.310337E-03,8.796454E-05,6.600709E-02,4.642310E-01,-3.720394E-03,0.000000E+00,1.189466E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1635kW/6.36COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1656kW_8_24COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1656kW_8_24COP_VSD

ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.17Minimum part unload ratio
RealPLRMin0.17Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.83Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1656300Reference capacity (negative number) [W]
RealCOP_nominal8.24Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04322Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06296Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{3.653257E-01,-6.139152E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{2.129183E-01,-9.725092E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.682264E-01,5.313899E-02,1...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.63Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 31.21Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1656kW_8_24COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1656300, COP_nominal = 8.24, PLRMin = 0.17, PLRMinUnl = 0.17, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.04322, mCon_flow_nominal = 1000 * 0.06296, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 19.83, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 18.63, TConLvgMax = 273.15 + 31.21, capFunT = {3.653257E-01,-6.139152E-02,-2.815890E-03,7.447010E-02,-2.488202E-03,5.049502E-03}, EIRFunT = {2.129183E-01,-9.725092E-02,-2.082833E-03,8.782361E-02,-1.867589E-03,3.572892E-03}, EIRFunPLR = {1.682264E-01,5.313899E-02,1.193363E-04,-2.621319E+00,4.728237E+00,-5.785047E-02,0.000000E+00,-1.229602E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1656kW/8.24COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1663kW_9_34COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1663kW_9_34COP_Vanes

ReformEIRChiller York YT 1663kW/9.34COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.17Minimum part unload ratio
RealPLRMin0.17Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 18.45Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1663300Reference capacity (negative number) [W]
RealCOP_nominal9.34Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04139Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.0776Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.972683E-01,-9.692349E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.477120E-01,-3.913396E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.131373E-01,-3.438844E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.45Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.43Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1663kW_9_34COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1663300, COP_nominal = 9.34, PLRMin = 0.17, PLRMinUnl = 0.17, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.04139, mCon_flow_nominal = 1000 * 0.0776, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 18.45, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 18.45, TConLvgMax = 273.15 + 34.43, capFunT = {6.972683E-01,-9.692349E-02,4.846738E-03,5.523481E-02,-1.995272E-03,3.533436E-03}, EIRFunT = {9.477120E-01,-3.913396E-02,2.408597E-03,6.703909E-03,5.744537E-04,-1.084620E-03}, EIRFunPLR = {3.131373E-01,-3.438844E-03,-2.715303E-06,1.918294E-01,7.024552E-01,3.301543E-03,0.000000E+00,-2.040731E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1663kW/9.34COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1674kW_7_89COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1674kW_7_89COP_Vanes

ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.32Minimum part unload ratio
RealPLRMin0.32Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 17.74Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1673900Reference capacity (negative number) [W]
RealCOP_nominal7.89Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09085Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 4.44Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.604710E-01,-5.170996E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.038212E+00,-5.515980E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{6.276299E-01,-2.633919E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.74Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.74Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XL_1674kW_7_89COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1673900, COP_nominal = 7.89, PLRMin = 0.32, PLRMinUnl = 0.32, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.09085, TEvaLvg_nominal = 273.15 + 4.44, TConLvg_nominal = 273.15 + 17.74, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.74, TConLvgMax = 273.15 + 34.74, capFunT = {-1.604710E-01,-5.170996E-02,-1.502523E-03,1.078170E-01,-2.402469E-03,3.063152E-03}, EIRFunT = {1.038212E+00,-5.515980E-02,3.732790E-03,2.569418E-03,5.139774E-04,-7.883225E-04}, EIRFunPLR = {6.276299E-01,-2.633919E-02,5.269229E-05,1.008569E+00,-1.063131E+00,2.353572E-02,0.000000E+00,4.628347E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XL 1674kW/7.89COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1681kW_6_59COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1681kW_6_59COP_Vanes

ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.90Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1680900Reference capacity (negative number) [W]
RealCOP_nominal6.59Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04366Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.849319E-01,-9.745913E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.325528E-01,2.791268E-02,1...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-1.598454E+00,9.989791E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 27.96Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.43Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_1681kW_6_59COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1680900, COP_nominal = 6.59, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.04366, mCon_flow_nominal = 1000 * 0.05142, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 32.90, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 27.96, TConLvgMax = 273.15 + 34.43, capFunT = {6.849319E-01,-9.745913E-02,-6.516486E-03,4.595970E-02,-1.596854E-03,7.102706E-03}, EIRFunT = {5.325528E-01,2.791268E-02,1.983583E-03,-2.742380E-03,7.801907E-04,-2.694731E-03}, EIRFunPLR = {-1.598454E+00,9.989791E-02,-1.680617E-04,1.430978E+00,5.318671E-01,-8.914051E-02,0.000000E+00,4.647834E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 1681kW/6.59COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1723kW_8_32COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1723kW_8_32COP_VSD

ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.18Minimum part unload ratio
RealPLRMin0.18Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.44Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1723100Reference capacity (negative number) [W]
RealCOP_nominal8.32Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04757Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06934Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.239005E-01,-7.123944E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{-1.372893E-01,-1.137042E-01...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.363743E+00,-2.534882E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.07Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 31.40Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1723kW_8_32COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1723100, COP_nominal = 8.32, PLRMin = 0.18, PLRMinUnl = 0.18, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.04757, mCon_flow_nominal = 1000 * 0.06934, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 19.44, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 18.07, TConLvgMax = 273.15 + 31.40, capFunT = {1.239005E-01,-7.123944E-02,-2.643936E-03,9.396468E-02,-2.643737E-03,4.923920E-03}, EIRFunT = {-1.372893E-01,-1.137042E-01,-3.395214E-03,1.210097E-01,-2.615543E-03,4.943923E-03}, EIRFunPLR = {1.363743E+00,-2.534882E-02,7.213176E-05,-3.644022E+00,5.935760E+00,2.202104E-02,0.000000E+00,-2.617944E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1723kW/8.32COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1727kW_9_04COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1727kW_9_04COP_Vanes

ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.17Minimum part unload ratio
RealPLRMin0.17Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.16Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1726600Reference capacity (negative number) [W]
RealCOP_nominal9.04Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.03912Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07192Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.78Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{2.574689E-01,2.272600E-03,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.247058E+00,-1.353289E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.552467E-02,1.482533E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.94Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.13Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1727kW_9_04COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1726600, COP_nominal = 9.04, PLRMin = 0.17, PLRMinUnl = 0.17, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.03912, mCon_flow_nominal = 1000 * 0.07192, TEvaLvg_nominal = 273.15 + 7.78, TConLvg_nominal = 273.15 + 19.16, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 18.94, TConLvgMax = 273.15 + 35.13, capFunT = {2.574689E-01,2.272600E-03,-5.815624E-03,6.540193E-02,-1.958828E-03,3.701057E-03}, EIRFunT = {1.247058E+00,-1.353289E-02,-1.160647E-03,-2.086541E-02,9.395685E-04,-2.989847E-05}, EIRFunPLR = {1.552467E-02,1.482533E-02,-2.165341E-05,9.371381E-01,-5.717707E-01,-1.368813E-02,0.000000E+00,6.047782E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1727kW/9.04COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_1751kW_6_73COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WSC_1751kW_6_73COP_Vanes

ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.07Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.82Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1751300Reference capacity (negative number) [W]
RealCOP_nominal6.73Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04145Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09337Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.997155E-01,1.013018E-01,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.968396E-01,2.738711E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-4.199061E-01,3.348162E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.25Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.66Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_WSC_1751kW_6_73COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1751300, COP_nominal = 6.73, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.07, mEva_flow_nominal = 1000 * 0.04145, mCon_flow_nominal = 1000 * 0.09337, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 31.82, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 19.25, TConLvgMax = 273.15 + 32.66, capFunT = {6.997155E-01,1.013018E-01,-5.069597E-03,1.512092E-02,-9.198614E-04,1.134806E-03}, EIRFunT = {9.968396E-01,2.738711E-02,-1.295424E-03,-2.546976E-02,9.706321E-04,-9.771396E-04}, EIRFunPLR = {-4.199061E-01,3.348162E-02,-3.463872E-06,1.370150E+00,-1.116699E+00,-3.393707E-02,0.000000E+00,1.177655E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay WSC 1751kW/6.73COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1758kW_5_96COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1758kW_5_96COP_Vanes

ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.23Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1758300Reference capacity (negative number) [W]
RealCOP_nominal5.96Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06309Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06309Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.152910E+00,-3.989989E-03,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.175819E-02,-9.767577E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-3.445966E+00,3.643598E-01,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.13Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.40Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_1758kW_5_96COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1758300, COP_nominal = 5.96, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.06309, mCon_flow_nominal = 1000 * 0.06309, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 32.23, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 20.13, TConLvgMax = 273.15 + 32.40, capFunT = {1.152910E+00,-3.989989E-03,-3.188662E-03,-1.713324E-02,1.013638E-04,2.380003E-03}, EIRFunT = {5.175819E-02,-9.767577E-02,4.582364E-03,6.527440E-02,-7.594482E-04,1.621435E-04}, EIRFunPLR = {-3.445966E+00,3.643598E-01,-1.697759E-04,-2.909905E+00,6.045776E+00,-3.553254E-01,0.000000E+00,1.192526E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 1758kW/5.96COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_5_76COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_5_76COP_VSD

ReformEIRChiller York YT 1758kW/5.76COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.27Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1758300Reference capacity (negative number) [W]
RealCOP_nominal5.76Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06309Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06309Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.960842E-01,1.462778E-01,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.622331E-01,8.325124E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.914420E-01,-3.736264E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.51Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.27Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.81Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1758kW_5_76COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1758300, COP_nominal = 5.76, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.06309, mCon_flow_nominal = 1000 * 0.06309, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 32.27, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.51, TConLvgMin = 273.15 + 21.27, TConLvgMax = 273.15 + 32.81, capFunT = {1.960842E-01,1.462778E-01,-4.568082E-03,3.185311E-02,-6.290125E-04,-1.279459E-03}, EIRFunT = {9.622331E-01,8.325124E-02,-2.403189E-03,-3.668907E-02,1.323874E-03,-2.828319E-03}, EIRFunPLR = {4.914420E-01,-3.736264E-02,-1.708310E-04,7.127945E-01,-1.838011E-01,4.633977E-02,0.000000E+00,-1.370201E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1758kW/5.76COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_6_26COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_6_26COP_Vanes

ReformEIRChiller York YT 1758kW/6.26COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.16Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.18Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1758300Reference capacity (negative number) [W]
RealCOP_nominal6.26Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06309Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06309Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{4.841919E-01,-2.437152E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.729452E-01,9.227136E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{9.471258E-01,-4.669457E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.48Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 33.76Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1758kW_6_26COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1758300, COP_nominal = 6.26, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.16, mEva_flow_nominal = 1000 * 0.06309, mCon_flow_nominal = 1000 * 0.06309, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 32.18, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 21.48, TConLvgMax = 273.15 + 33.76, capFunT = {4.841919E-01,-2.437152E-02,3.244522E-03,5.590357E-02,-1.302819E-03,9.257097E-04}, EIRFunT = {1.729452E-01,9.227136E-02,-5.580943E-03,1.946191E-02,3.155080E-05,-7.904242E-04}, EIRFunPLR = {9.471258E-01,-4.669457E-02,-4.461248E-04,5.587776E-02,6.578054E-01,7.103286E-02,0.000000E+00,-9.855688E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1758kW/6.26COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_5_96COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_5_96COP_Vanes

ReformEIRChiller York YT 1758kW/5.96COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.01Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.23Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1758300Reference capacity (negative number) [W]
RealCOP_nominal5.96Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06309Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06309Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{8.075668E-01,5.287917E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{2.593808E-01,-1.873181E-03,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.303414E-01,1.618347E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.29Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 33.53Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1758kW_5_96COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1758300, COP_nominal = 5.96, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.01, mEva_flow_nominal = 1000 * 0.06309, mCon_flow_nominal = 1000 * 0.06309, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 32.23, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 21.29, TConLvgMax = 273.15 + 33.53, capFunT = {8.075668E-01,5.287917E-02,-4.493793E-04,7.036068E-03,-3.536822E-04,3.731438E-04}, EIRFunT = {2.593808E-01,-1.873181E-03,-4.808688E-04,3.822020E-02,-3.813018E-04,-2.995903E-04}, EIRFunPLR = {1.303414E-01,1.618347E-02,-7.157278E-05,-1.337481E-01,1.186910E+00,-1.240299E-02,0.000000E+00,-2.328976E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1758kW/5.96COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1758kW_5_96COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHE_1758kW_5_96COP_Vanes

ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 34.63Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1758300Reference capacity (negative number) [W]
RealCOP_nominal5.96Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09464Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-3.784203E-01,-8.333229E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.583438E+00,-3.412919E-03,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.466664E+00,-4.222011E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 28.68Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 40.15Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHE_1758kW_5_96COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1758300, COP_nominal = 5.96, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.09464, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 34.63, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 28.68, TConLvgMax = 273.15 + 40.15, capFunT = {-3.784203E-01,-8.333229E-02,-8.509675E-03,1.031937E-01,-2.432261E-03,7.065530E-03}, EIRFunT = {1.583438E+00,-3.412919E-03,4.476231E-03,-5.243024E-02,1.295102E-03,-2.210725E-03}, EIRFunPLR = {1.466664E+00,-4.222011E-02,-1.153513E-04,-7.738226E-02,-9.896333E-01,5.014539E-02,0.000000E+00,4.671251E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHE 1758kW/5.96COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_6_28COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1758kW_6_28COP_Vanes

ReformEIRChiller York YT 1758kW/6.28COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.06Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 34.60Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1758300Reference capacity (negative number) [W]
RealCOP_nominal6.28Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09464Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{5.062633E-01,-9.373882E-03,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.699849E-01,-9.813327E-03,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.911331E-01,-4.317969E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.46Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 39.72Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1758kW_6_28COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1758300, COP_nominal = 6.28, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.06, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.09464, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 34.60, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 20.46, TConLvgMax = 273.15 + 39.72, capFunT = {5.062633E-01,-9.373882E-03,-2.822764E-03,4.202164E-02,-1.092132E-03,2.074549E-03}, EIRFunT = {5.699849E-01,-9.813327E-03,4.223116E-04,4.842283E-03,4.078201E-04,-7.615896E-04}, EIRFunPLR = {2.911331E-01,-4.317969E-03,1.448369E-05,6.226793E-01,7.992053E-02,3.393326E-03,0.000000E+00,1.919540E-02,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1758kW/6.28COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1758kW_5_86COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1758kW_5_86COP_VSD

ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.15Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1758300Reference capacity (negative number) [W]
RealCOP_nominal5.86Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06303Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07337Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{9.528317E-02,-4.119086E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{-6.333861E-02,-5.533069E-02...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.251509E+00,-9.433150E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.86Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 31.43Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1758kW_5_86COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1758300, COP_nominal = 5.86, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.06303, mCon_flow_nominal = 1000 * 0.07337, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 31.15, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 17.86, TConLvgMax = 273.15 + 31.43, capFunT = {9.528317E-02,-4.119086E-02,-3.854298E-03,7.698517E-02,-1.945011E-03,4.285126E-03}, EIRFunT = {-6.333861E-02,-5.533069E-02,-4.591740E-03,7.468402E-02,-1.455300E-03,3.506040E-03}, EIRFunPLR = {1.251509E+00,-9.433150E-02,-2.849753E-05,8.544238E-01,-1.491994E+00,9.568956E-02,0.000000E+00,3.698862E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1758kW/5.86COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1758kW_6_46COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1758kW_6_46COP_VSD

ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.14Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1758300Reference capacity (negative number) [W]
RealCOP_nominal6.46Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06309Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06309Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.155538E+00,-6.017270E-03,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{-2.601408E-01,2.870346E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-1.842588E-01,5.105821E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.10Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.22Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_1758kW_6_46COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1758300, COP_nominal = 6.46, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.06309, mCon_flow_nominal = 1000 * 0.06309, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 32.14, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 20.10, TConLvgMax = 273.15 + 32.22, capFunT = {1.155538E+00,-6.017270E-03,-3.052085E-03,-1.615198E-02,1.178682E-04,2.213641E-03}, EIRFunT = {-2.601408E-01,2.870346E-02,2.635595E-04,4.992457E-02,-1.859076E-04,-1.832446E-03}, EIRFunPLR = {-1.842588E-01,5.105821E-02,6.142934E-05,6.478691E-01,-4.242816E-01,-5.442456E-02,0.000000E+00,1.005374E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 1758kW/6.46COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1758kW_6_87COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1758kW_6_87COP_Vanes

ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.08Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1758300Reference capacity (negative number) [W]
RealCOP_nominal6.87Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06309Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06309Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{7.950124E-01,3.170632E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.428117E-01,1.299499E-02,5...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{5.682807E-01,-3.888781E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.44Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.98Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_1758kW_6_87COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1758300, COP_nominal = 6.87, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.06309, mCon_flow_nominal = 1000 * 0.06309, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 32.08, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 20.44, TConLvgMax = 273.15 + 32.98, capFunT = {7.950124E-01,3.170632E-02,-5.547610E-04,4.268492E-03,-1.289046E-04,4.509069E-04}, EIRFunT = {6.428117E-01,1.299499E-02,5.872739E-04,-5.532320E-03,6.809308E-04,-1.480167E-03}, EIRFunPLR = {5.682807E-01,-3.888781E-02,6.619097E-06,1.715735E+00,-1.791541E+00,3.851853E-02,0.000000E+00,5.124705E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 1758kW/6.87COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1776kW_8_00COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1776kW_8_00COP_Vanes

ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.17Minimum part unload ratio
RealPLRMin0.17Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.60Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1775900Reference capacity (negative number) [W]
RealCOP_nominal8.00Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04757Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07003Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.221213E-01,-6.119865E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{7.400829E-01,-2.067083E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{8.623059E-01,-3.289272E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.69Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 30.73Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1776kW_8_00COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1775900, COP_nominal = 8.00, PLRMin = 0.17, PLRMinUnl = 0.17, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.04757, mCon_flow_nominal = 1000 * 0.07003, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 19.60, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 18.69, TConLvgMax = 273.15 + 30.73, capFunT = {-1.221213E-01,-6.119865E-02,-1.798410E-03,1.162623E-01,-3.162366E-03,4.088809E-03}, EIRFunT = {7.400829E-01,-2.067083E-02,6.695036E-04,1.727139E-02,2.554481E-04,-7.023159E-04}, EIRFunPLR = {8.623059E-01,-3.289272E-02,6.345837E-05,1.416109E-01,2.335827E-01,3.016537E-02,0.000000E+00,-2.083488E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1776kW/8.00COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1779kW_6_18COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1779kW_6_18COP_Vanes

ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.69Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1779400Reference capacity (negative number) [W]
RealCOP_nominal6.18Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06303Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.08858Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-7.421879E-02,-6.864609E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.396428E-01,-3.183208E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{7.137642E-01,-3.096191E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.83Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.12Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XL_1779kW_6_18COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1779400, COP_nominal = 6.18, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.06303, mCon_flow_nominal = 1000 * 0.08858, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 31.69, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 20.83, TConLvgMax = 273.15 + 32.12, capFunT = {-7.421879E-02,-6.864609E-02,-6.656797E-03,9.778610E-02,-2.680195E-03,6.765638E-03}, EIRFunT = {5.396428E-01,-3.183208E-02,1.041725E-03,2.112772E-02,4.504330E-05,-4.947764E-04}, EIRFunPLR = {7.137642E-01,-3.096191E-02,1.459047E-04,8.907204E-01,-1.051301E+00,2.348095E-02,0.000000E+00,5.406677E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XL 1779kW/6.18COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1779kW_6_18COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_1779kW_6_18COP_Vanes

ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 33.51Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1779400Reference capacity (negative number) [W]
RealCOP_nominal6.18Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04454Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.379667E-01,-8.817299E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{3.679272E-01,3.649996E-03,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{6.454991E-03,1.094255E-02,5...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 27.96Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.47Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_1779kW_6_18COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1779400, COP_nominal = 6.18, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.04454, mCon_flow_nominal = 1000 * 0.05142, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 33.51, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 27.96, TConLvgMax = 273.15 + 34.47, capFunT = {-1.379667E-01,-8.817299E-02,-1.551247E-03,9.297586E-02,-1.943005E-03,4.050538E-03}, EIRFunT = {3.679272E-01,3.649996E-03,-1.333659E-03,6.605569E-03,4.699578E-04,-5.527094E-04}, EIRFunPLR = {6.454991E-03,1.094255E-02,5.090580E-05,8.866733E-01,-4.314429E-01,-1.400320E-02,0.000000E+00,5.835670E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 1779kW/6.18COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1794kW_8_11COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1794kW_8_11COP_Vanes

ReformEIRChiller York YT 1794kW/8.11COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.08Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 28.88Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1793500Reference capacity (negative number) [W]
RealCOP_nominal8.11Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05148Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09653Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.22Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.475615E+00,-2.480005E-01,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.190864E+00,3.400270E-01,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-9.081317E-02,1.524614E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.71Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.34Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1794kW_8_11COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1793500, COP_nominal = 8.11, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.08, mEva_flow_nominal = 1000 * 0.05148, mCon_flow_nominal = 1000 * 0.09653, TEvaLvg_nominal = 273.15 + 7.22, TConLvg_nominal = 273.15 + 28.88, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 18.71, TConLvgMax = 273.15 + 34.34, capFunT = {1.475615E+00,-2.480005E-01,1.353388E-02,5.216264E-02,-2.330109E-03,5.131852E-03}, EIRFunT = {1.190864E+00,3.400270E-01,-8.717000E-03,-1.107704E-01,3.433891E-03,-8.538300E-03}, EIRFunPLR = {-9.081317E-02,1.524614E-02,8.256304E-04,-6.921348E-01,4.110008E+00,-6.003188E-02,0.000000E+00,-1.751625E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1794kW/8.11COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1794kW_7_90COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1794kW_7_90COP_VSD

ReformEIRChiller York YT 1794kW/7.90COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.05Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 28.90Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1793500Reference capacity (negative number) [W]
RealCOP_nominal7.90Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05148Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09653Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.22Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{7.431766E-01,-1.738759E-01,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{3.622079E-01,-1.249125E-01,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.828090E-01,-1.598908E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.43Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.71Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1794kW_7_90COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1793500, COP_nominal = 7.90, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.05, mEva_flow_nominal = 1000 * 0.05148, mCon_flow_nominal = 1000 * 0.09653, TEvaLvg_nominal = 273.15 + 7.22, TConLvg_nominal = 273.15 + 28.90, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.43, TConLvgMax = 273.15 + 35.71, capFunT = {7.431766E-01,-1.738759E-01,7.863010E-03,6.780689E-02,-1.636950E-03,3.409649E-03}, EIRFunT = {3.622079E-01,-1.249125E-01,5.333823E-03,5.641261E-02,-3.290614E-04,8.180145E-06}, EIRFunPLR = {3.828090E-01,-1.598908E-02,-1.273038E-04,5.991790E-01,-5.063099E-01,2.273951E-02,0.000000E+00,4.390985E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1794kW/7.90COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1797kW_5_69COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1797kW_5_69COP_Vanes

ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.01Maximum part load ratio
RealPLRMinUnl0.39Minimum part unload ratio
RealPLRMin0.39Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 34.67Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1797000Reference capacity (negative number) [W]
RealCOP_nominal5.69Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07737Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09672Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{9.173209E-01,4.990036E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.079738E+00,-4.447776E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{5.147565E+00,-1.604653E-01,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.67Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 26.59Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.91Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XL_1797kW_5_69COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1797000, COP_nominal = 5.69, PLRMin = 0.39, PLRMinUnl = 0.39, PLRMax = 1.01, mEva_flow_nominal = 1000 * 0.07737, mCon_flow_nominal = 1000 * 0.09672, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 34.67, TEvaLvgMin = 273.15 + 6.67, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 26.59, TConLvgMax = 273.15 + 34.91, capFunT = {9.173209E-01,4.990036E-02,-1.196031E-03,-2.024380E-03,-3.141698E-05,-3.752508E-04}, EIRFunT = {1.079738E+00,-4.447776E-02,1.617276E-03,8.485662E-04,8.268362E-05,5.543283E-05}, EIRFunPLR = {5.147565E+00,-1.604653E-01,2.139293E-05,-3.215408E+00,-1.636618E+00,1.592219E-01,0.000000E+00,7.224656E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XL 1797kW/5.69COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1801kW_6_34COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_1801kW_6_34COP_VSD

ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.70Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1800500Reference capacity (negative number) [W]
RealCOP_nominal6.34Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05161Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06385Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.22Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{3.277256E-01,-9.423458E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.993760E-01,3.436644E-03,1...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-3.986781E-03,2.064845E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.67Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.22Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.63Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.95Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_1801kW_6_34COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1800500, COP_nominal = 6.34, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.05161, mCon_flow_nominal = 1000 * 0.06385, TEvaLvg_nominal = 273.15 + 7.22, TConLvg_nominal = 273.15 + 31.70, TEvaLvgMin = 273.15 + 6.67, TEvaLvgMax = 273.15 + 12.22, TConLvgMin = 273.15 + 19.63, TConLvgMax = 273.15 + 32.95, capFunT = {3.277256E-01,-9.423458E-02,-1.714249E-03,7.496846E-02,-1.987466E-03,4.807394E-03}, EIRFunT = {6.993760E-01,3.436644E-03,1.120695E-03,-3.794674E-03,7.200808E-04,-1.623357E-03}, EIRFunPLR = {-3.986781E-03,2.064845E-02,-1.459614E-05,-5.111204E-01,2.257468E+00,-1.990453E-02,0.000000E+00,-7.517775E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 1801kW/6.34COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1867kW_10_09COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1867kW_10_09COP_Vanes

ReformEIRChiller York YT 1867kW/10.09COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 18.18Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1867300Reference capacity (negative number) [W]
RealCOP_nominal10.09Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09085Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.78Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-8.621766E-02,-4.282771E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.584483E-01,1.696214E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-3.108659E-01,5.639190E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.96Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 39.35Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1867kW_10_09COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1867300, COP_nominal = 10.09, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.09085, TEvaLvg_nominal = 273.15 + 7.78, TConLvg_nominal = 273.15 + 18.18, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.96, TConLvgMax = 273.15 + 39.35, capFunT = {-8.621766E-02,-4.282771E-02,-4.467391E-03,9.890042E-02,-2.768144E-03,5.728215E-03}, EIRFunT = {6.584483E-01,1.696214E-02,-3.465522E-03,2.078998E-02,2.909474E-04,-2.222756E-04}, EIRFunPLR = {-3.108659E-01,5.639190E-02,-6.487474E-05,-9.450752E-01,2.690004E+00,-5.309347E-02,0.000000E+00,-4.748500E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1867kW/10.09COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1871kW_6_49COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_1871kW_6_49COP_Vanes

ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.19Minimum part unload ratio
RealPLRMin0.19Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.00Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1870800Reference capacity (negative number) [W]
RealCOP_nominal6.49Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06303Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.0877Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-7.422008E-01,-5.893189E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.182368E+00,-6.852914E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.085769E+00,-5.971095E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.92Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.06Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XL_1871kW_6_49COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1870800, COP_nominal = 6.49, PLRMin = 0.19, PLRMinUnl = 0.19, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.06303, mCon_flow_nominal = 1000 * 0.0877, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 32.00, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 20.92, TConLvgMax = 273.15 + 35.06, capFunT = {-7.422008E-01,-5.893189E-02,-6.359815E-03,1.450953E-01,-3.416848E-03,5.905773E-03}, EIRFunT = {1.182368E+00,-6.852914E-02,2.718010E-03,-1.693531E-02,6.861400E-04,4.136164E-05}, EIRFunPLR = {1.085769E+00,-5.971095E-02,1.041798E-04,7.182300E-01,-5.729312E-01,5.367072E-02,0.000000E+00,-1.472327E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XL 1871kW/6.49COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1881kW_6_77COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1881kW_6_77COP_VSD

ReformEIRChiller York YT 1881kW/6.77COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.35Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1881400Reference capacity (negative number) [W]
RealCOP_nominal6.77Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09464Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{2.510830E-01,-3.997687E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.450343E-01,-3.893169E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.949889E-02,2.267854E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.80Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.02Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1881kW_6_77COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1881400, COP_nominal = 6.77, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.09464, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 29.35, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.80, TConLvgMax = 273.15 + 35.02, capFunT = {2.510830E-01,-3.997687E-02,-3.627911E-03,6.819530E-02,-2.135260E-03,5.245082E-03}, EIRFunT = {5.450343E-01,-3.893169E-02,9.377632E-04,2.314284E-02,-1.134638E-05,7.362152E-05}, EIRFunPLR = {4.949889E-02,2.267854E-02,-2.003269E-05,-9.059476E-01,3.032884E+00,-2.155668E-02,0.000000E+00,-1.190898E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1881kW/6.77COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_1881kW_6_53COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_1881kW_6_53COP_Vanes

ReformEIRChiller York YK 1881kW/6.53COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.19Minimum part unload ratio
RealPLRMin0.19Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.65Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1881400Reference capacity (negative number) [W]
RealCOP_nominal6.53Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04397Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.1041Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{8.031671E-01,3.618657E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{4.262865E-01,4.727402E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.470999E-01,-4.530708E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 15.00Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.45Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YK_1881kW_6_53COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1881400, COP_nominal = 6.53, PLRMin = 0.19, PLRMinUnl = 0.19, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.04397, mCon_flow_nominal = 1000 * 0.1041, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 31.65, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 15.00, TConLvgMax = 273.15 + 32.45, capFunT = {8.031671E-01,3.618657E-02,-1.027472E-03,1.237132E-02,-7.469842E-04,1.123058E-03}, EIRFunT = {4.262865E-01,4.727402E-02,-1.347198E-03,4.334960E-03,5.282605E-04,-1.449676E-03}, EIRFunPLR = {2.470999E-01,-4.530708E-03,2.522038E-05,-5.464802E-01,2.572647E+00,3.398388E-03,0.000000E+00,-1.261128E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YK 1881kW/6.53COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1895kW_6_42COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1895kW_6_42COP_Vanes

ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.1Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.66Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1895400Reference capacity (negative number) [W]
RealCOP_nominal6.42Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09085Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{4.518352E-01,-1.535612E-01,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.851189E-01,-3.198165E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.912394E-02,1.922190E-02,1...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.93Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 40.14Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PEH_1895kW_6_42COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1895400, COP_nominal = 6.42, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.1, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.09085, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 29.66, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.93, TConLvgMax = 273.15 + 40.14, capFunT = {4.518352E-01,-1.535612E-01,1.760231E-03,8.123118E-02,-2.460493E-03,6.371948E-03}, EIRFunT = {1.851189E-01,-3.198165E-02,-8.437565E-04,4.384625E-02,-4.446880E-04,8.645981E-04}, EIRFunPLR = {4.912394E-02,1.922190E-02,1.458006E-04,-1.286997E-01,1.371824E+00,-2.769626E-02,0.000000E+00,-1.782073E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PEH 1895kW/6.42COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1934kW_7_55COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_1934kW_7_55COP_Vanes

ReformEIRChiller York YT 1934kW/7.55COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.06Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.93Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1934100Reference capacity (negative number) [W]
RealCOP_nominal7.55Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05552Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.08675Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-8.034452E-01,5.620880E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.464148E+00,-1.335550E-01,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{7.339218E-01,-3.184317E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.55Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.11Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_1934kW_7_55COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1934100, COP_nominal = 7.55, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.06, mEva_flow_nominal = 1000 * 0.05552, mCon_flow_nominal = 1000 * 0.08675, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 19.93, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 19.55, TConLvgMax = 273.15 + 35.11, capFunT = {-8.034452E-01,5.620880E-02,-1.066333E-03,1.377705E-01,-3.123388E-03,1.042684E-03}, EIRFunT = {1.464148E+00,-1.335550E-01,4.793466E-03,-2.069042E-02,6.523211E-04,1.245111E-03}, EIRFunPLR = {7.339218E-01,-3.184317E-02,-9.387398E-05,-2.274806E-01,1.677164E+00,3.688705E-02,0.000000E+00,-1.250228E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 1934kW/7.55COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1934kW_6_01COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PEH_1934kW_6_01COP_Vanes

ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.06Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.54Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1934100Reference capacity (negative number) [W]
RealCOP_nominal6.01Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05552Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07981Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-4.043899E-01,-5.695254E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.191090E-01,7.702949E-04,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.000427E+00,-3.176111E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.00Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.60Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PEH_1934kW_6_01COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1934100, COP_nominal = 6.01, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.06, mEva_flow_nominal = 1000 * 0.05552, mCon_flow_nominal = 1000 * 0.07981, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 29.54, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 19.00, TConLvgMax = 273.15 + 36.60, capFunT = {-4.043899E-01,-5.695254E-02,-1.353511E-03,1.215555E-01,-2.814037E-03,4.161831E-03}, EIRFunT = {1.191090E-01,7.702949E-04,-2.852916E-03,4.290826E-02,-4.014538E-04,8.913432E-04}, EIRFunPLR = {1.000427E+00,-3.176111E-02,-2.412562E-04,4.886225E-01,-2.020669E+00,4.495646E-02,0.000000E+00,1.357430E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PEH 1934kW/6.01COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WDC_1973kW_6_28COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_WDC_1973kW_6_28COP_Vanes

ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.06Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.53Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1972800Reference capacity (negative number) [W]
RealCOP_nominal6.28Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04145Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09337Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.327385E+00,5.589128E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.179827E+00,-5.349290E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-9.986603E-01,7.542346E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.36Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.81Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_WDC_1973kW_6_28COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1972800, COP_nominal = 6.28, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.06, mEva_flow_nominal = 1000 * 0.04145, mCon_flow_nominal = 1000 * 0.09337, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 32.53, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 19.36, TConLvgMax = 273.15 + 32.81, capFunT = {1.327385E+00,5.589128E-02,-6.418354E-03,-2.827763E-02,-2.655572E-04,2.996574E-03}, EIRFunT = {1.179827E+00,-5.349290E-02,-2.095113E-03,-1.285812E-02,2.267511E-04,2.197542E-03}, EIRFunPLR = {-9.986603E-01,7.542346E-02,-5.753431E-05,6.665711E-02,2.154745E+00,-7.250027E-02,0.000000E+00,-2.590669E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay WDC 1973kW/6.28COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_1997kW_7_24COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_1997kW_7_24COP_Vanes

ReformEIRChiller York YK 1997kW/7.24COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.07Maximum part load ratio
RealPLRMinUnl0.18Minimum part unload ratio
RealPLRMin0.18Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.89Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-1997400Reference capacity (negative number) [W]
RealCOP_nominal7.24Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04397Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.1041Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.039493E+00,1.593009E-01,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.550813E-01,1.022114E-01,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.838759E-01,-1.009515E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 7.22Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.16Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.70Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YK_1997kW_7_24COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -1997400, COP_nominal = 7.24, PLRMin = 0.18, PLRMinUnl = 0.18, PLRMax = 1.07, mEva_flow_nominal = 1000 * 0.04397, mCon_flow_nominal = 1000 * 0.1041, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 31.89, TEvaLvgMin = 273.15 + 7.22, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 19.16, TConLvgMax = 273.15 + 32.70, capFunT = {1.039493E+00,1.593009E-01,-3.989073E-03,-3.812180E-02,2.881779E-04,-7.520087E-04}, EIRFunT = {1.550813E-01,1.022114E-01,-6.511170E-04,-1.241272E-02,1.514358E-03,-4.090377E-03}, EIRFunPLR = {1.838759E-01,-1.009515E-02,1.677624E-04,9.181489E-01,-2.434151E-02,1.727052E-03,0.000000E+00,2.527075E-02,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YK 1997kW/7.24COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_2043kW_8_44COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_2043kW_8_44COP_Vanes

ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.08Minimum part unload ratio
RealPLRMin0.08Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 20.80Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2043100Reference capacity (negative number) [W]
RealCOP_nominal8.44Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04757Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.06814Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.11Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{7.565419E-01,1.690707E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.806067E-01,5.701621E-03,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-7.300240E-01,6.016914E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.11Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.78Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.80Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.72Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PFH_2043kW_8_44COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2043100, COP_nominal = 8.44, PLRMin = 0.08, PLRMinUnl = 0.08, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.04757, mCon_flow_nominal = 1000 * 0.06814, TEvaLvg_nominal = 273.15 + 6.11, TConLvg_nominal = 273.15 + 20.80, TEvaLvgMin = 273.15 + 6.11, TEvaLvgMax = 273.15 + 12.78, TConLvgMin = 273.15 + 20.80, TConLvgMax = 273.15 + 32.72, capFunT = {7.565419E-01,1.690707E-02,-3.988252E-03,2.008625E-02,-1.439363E-03,3.931271E-03}, EIRFunT = {6.806067E-01,5.701621E-03,-1.329020E-03,1.210419E-02,2.563048E-04,-2.528032E-04}, EIRFunPLR = {-7.300240E-01,6.016914E-02,2.516862E-05,1.606362E-01,1.803623E+00,-6.158982E-02,0.000000E+00,-2.149832E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PFH 2043kW/8.44COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2043kW_9_08COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2043kW_9_08COP_Vanes

ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.05Maximum part load ratio
RealPLRMinUnl0.28Minimum part unload ratio
RealPLRMin0.28Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 23.11Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2043100Reference capacity (negative number) [W]
RealCOP_nominal9.08Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.09085Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.11356Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 4.44Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-2.215335E+00,-3.294601E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.008753E+00,3.282653E-02,3...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.696812E-01,3.068332E-02,1...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 23.06Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.90Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_2043kW_9_08COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2043100, COP_nominal = 9.08, PLRMin = 0.28, PLRMinUnl = 0.28, PLRMax = 1.05, mEva_flow_nominal = 1000 * 0.09085, mCon_flow_nominal = 1000 * 0.11356, TEvaLvg_nominal = 273.15 + 4.44, TConLvg_nominal = 273.15 + 23.11, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 23.06, TConLvgMax = 273.15 + 34.90, capFunT = {-2.215335E+00,-3.294601E-02,-5.300740E-03,2.341598E-01,-4.558661E-03,4.631243E-03}, EIRFunT = {1.008753E+00,3.282653E-02,3.719189E-03,-2.508242E-02,1.367676E-03,-3.739705E-03}, EIRFunPLR = {3.696812E-01,3.068332E-02,1.965912E-05,-1.915197E+00,3.980757E+00,-3.185207E-02,0.000000E+00,-1.418416E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 2043kW/9.08COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_2057kW_6_05COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XL_2057kW_6_05COP_Vanes

ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.28Minimum part unload ratio
RealPLRMin0.28Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.79Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2057200Reference capacity (negative number) [W]
RealCOP_nominal6.05Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.08322Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09722Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.78Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.448091E-01,-3.315001E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{7.341312E-01,-7.592418E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.353291E-01,-5.973382E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.89Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.37Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XL_2057kW_6_05COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2057200, COP_nominal = 6.05, PLRMin = 0.28, PLRMinUnl = 0.28, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.08322, mCon_flow_nominal = 1000 * 0.09722, TEvaLvg_nominal = 273.15 + 7.78, TConLvg_nominal = 273.15 + 29.79, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.89, TConLvgMax = 273.15 + 35.37, capFunT = {6.448091E-01,-3.315001E-02,-3.168485E-03,3.196459E-02,-1.138880E-03,3.799700E-03}, EIRFunT = {7.341312E-01,-7.592418E-02,-2.065951E-03,3.153945E-02,-8.888217E-04,3.650961E-03}, EIRFunPLR = {1.353291E-01,-5.973382E-03,-2.152787E-05,1.844856E+00,-2.868168E+00,7.003543E-03,0.000000E+00,1.875512E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XL 2057kW/6.05COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_2110kW_7_15COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_2110kW_7_15COP_Vanes

ReformEIRChiller York YT 2110kW/7.15COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.06Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.97Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2110000Reference capacity (negative number) [W]
RealCOP_nominal7.15Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06057Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09464Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.22Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.132568E-02,-1.142230E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.140372E-01,-4.277763E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.834325E-01,-1.806511E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.99Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.89Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_2110kW_7_15COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2110000, COP_nominal = 7.15, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.06, mEva_flow_nominal = 1000 * 0.06057, mCon_flow_nominal = 1000 * 0.09464, TEvaLvg_nominal = 273.15 + 7.22, TConLvg_nominal = 273.15 + 29.97, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 18.99, TConLvgMax = 273.15 + 34.89, capFunT = {6.132568E-02,-1.142230E-02,1.660419E-03,8.345415E-02,-2.159087E-03,1.699787E-03}, EIRFunT = {6.140372E-01,-4.277763E-02,9.446169E-04,1.580154E-02,1.226130E-04,3.616708E-04}, EIRFunPLR = {3.834325E-01,-1.806511E-03,5.390925E-05,1.510060E-02,7.165451E-01,-1.195918E-03,0.000000E+00,-7.564269E-02,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 2110kW/7.15COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_2124kW_6_03COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_2124kW_6_03COP_Vanes

ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.31Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2124000Reference capacity (negative number) [W]
RealCOP_nominal6.03Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.05552Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.07981Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 8.89Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{8.466662E-01,-3.809647E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.198331E+00,-5.731652E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-1.353862E+00,9.444334E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.28Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.13Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PFH_2124kW_6_03COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2124000, COP_nominal = 6.03, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.05552, mCon_flow_nominal = 1000 * 0.07981, TEvaLvg_nominal = 273.15 + 8.89, TConLvg_nominal = 273.15 + 31.31, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 20.28, TConLvgMax = 273.15 + 36.13, capFunT = {8.466662E-01,-3.809647E-02,4.003930E-04,2.913659E-02,-1.138034E-03,2.405293E-03}, EIRFunT = {1.198331E+00,-5.731652E-02,-4.950792E-03,-1.013222E-02,-1.112759E-04,4.138878E-03}, EIRFunPLR = {-1.353862E+00,9.444334E-02,-1.467992E-05,1.291373E+00,-2.276361E-01,-9.395594E-02,0.000000E+00,1.285196E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PFH 2124kW/6.03COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2159kW_6_85COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2159kW_6_85COP_Vanes

ReformEIRChiller York YK 2159kW/6.85COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.05Maximum part load ratio
RealPLRMinUnl0.14Minimum part unload ratio
RealPLRMin0.14Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.32Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2159200Reference capacity (negative number) [W]
RealCOP_nominal6.85Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.11356Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-5.164056E-02,-7.384855E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.013059E+00,2.176325E-03,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.315688E-02,2.746250E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.13Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.75Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YK_2159kW_6_85COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2159200, COP_nominal = 6.85, PLRMin = 0.14, PLRMinUnl = 0.14, PLRMax = 1.05, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.11356, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 31.32, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 21.13, TConLvgMax = 273.15 + 34.75, capFunT = {-5.164056E-02,-7.384855E-02,-1.036241E-02,1.201446E-01,-3.881099E-03,9.873049E-03}, EIRFunT = {1.013059E+00,2.176325E-03,-4.682395E-04,-1.887683E-02,7.444727E-04,-6.685547E-04}, EIRFunPLR = {2.315688E-02,2.746250E-02,-2.345600E-05,-4.728932E-01,1.778530E+00,-2.621741E-02,0.000000E+00,-3.448533E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YK 2159kW/6.85COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2184kW_6_78COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2184kW_6_78COP_Vanes

ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.01Maximum part load ratio
RealPLRMinUnl0.09Minimum part unload ratio
RealPLRMin0.09Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 35.55Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2183800Reference capacity (negative number) [W]
RealCOP_nominal6.78Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.04883Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.05142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.78Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.214452E+00,-1.495671E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.286650E+00,3.478277E-02,2...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.473025E+00,-1.277887E-01,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 10.00Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 30.67Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.06Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_2184kW_6_78COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2183800, COP_nominal = 6.78, PLRMin = 0.09, PLRMinUnl = 0.09, PLRMax = 1.01, mEva_flow_nominal = 1000 * 0.04883, mCon_flow_nominal = 1000 * 0.05142, TEvaLvg_nominal = 273.15 + 7.78, TConLvg_nominal = 273.15 + 35.55, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConLvgMin = 273.15 + 30.67, TConLvgMax = 273.15 + 36.06, capFunT = {1.214452E+00,-1.495671E-02,-2.934194E-03,1.568925E-02,-9.780218E-04,2.723254E-03}, EIRFunT = {1.286650E+00,3.478277E-02,2.888239E-03,-4.763798E-02,1.463610E-03,-3.194170E-03}, EIRFunPLR = {2.473025E+00,-1.277887E-01,-3.279364E-05,-3.156699E-01,-3.527895E-01,1.304080E-01,0.000000E+00,-8.547163E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 2184kW/6.78COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2201kW_6_69COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2201kW_6_69COP_Vanes

ReformEIRChiller York YK 2201kW/6.69COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.05Maximum part load ratio
RealPLRMinUnl0.14Minimum part unload ratio
RealPLRMin0.14Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.44Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2201400Reference capacity (negative number) [W]
RealCOP_nominal6.69Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.11356Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-2.132698E-01,-9.712289E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{8.761500E-01,2.513467E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.515554E-03,3.070346E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.11Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.92Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YK_2201kW_6_69COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2201400, COP_nominal = 6.69, PLRMin = 0.14, PLRMinUnl = 0.14, PLRMax = 1.05, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.11356, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 31.44, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 21.11, TConLvgMax = 273.15 + 34.92, capFunT = {-2.132698E-01,-9.712289E-02,-7.445252E-03,1.333444E-01,-3.971284E-03,9.247854E-03}, EIRFunT = {8.761500E-01,2.513467E-02,-8.565300E-04,-1.383243E-02,6.968311E-04,-1.236275E-03}, EIRFunPLR = {3.515554E-03,3.070346E-02,-1.198496E-08,-5.568236E-01,1.810053E+00,-3.070120E-02,0.000000E+00,-2.564025E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YK 2201kW/6.69COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_2233kW_9_54COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_2233kW_9_54COP_VSD

ReformEIRChiller York YT 2233kW/9.54COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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}
    17.93,                   !- 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,  !- 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
    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
    1.06,                    !- 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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.06Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 17.93Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2233000Reference capacity (negative number) [W]
RealCOP_nominal9.54Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06107Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.11451Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{4.939632E-01,-9.743766E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{7.177745E-01,-9.460212E-04,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.637900E-01,-3.344690E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.93Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.11Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_2233kW_9_54COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2233000, COP_nominal = 9.54, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.06, mEva_flow_nominal = 1000 * 0.06107, mCon_flow_nominal = 1000 * 0.11451, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 17.93, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.93, TConLvgMax = 273.15 + 34.11, capFunT = {4.939632E-01,-9.743766E-02,6.782771E-03,7.149216E-02,-2.077461E-03,2.246608E-03}, EIRFunT = {7.177745E-01,-9.460212E-04,-1.451469E-03,1.431719E-02,5.149926E-04,-8.367784E-04}, EIRFunPLR = {4.637900E-01,-3.344690E-02,2.768776E-04,-2.457480E-03,1.477501E+00,1.903803E-02,0.000000E+00,-7.622945E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 2233kW/9.54COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2237kW_6_41COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2237kW_6_41COP_Vanes

ReformEIRChiller York YK 2237kW/6.41COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.13Minimum part unload ratio
RealPLRMin0.13Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.56Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2236600Reference capacity (negative number) [W]
RealCOP_nominal6.41Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.11356Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{2.686272E-01,-4.051077E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.801548E-01,2.026687E-02,1...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.013555E-01,1.055744E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.30Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.03Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YK_2237kW_6_41COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2236600, COP_nominal = 6.41, PLRMin = 0.13, PLRMinUnl = 0.13, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.11356, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 31.56, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 21.30, TConLvgMax = 273.15 + 35.03, capFunT = {2.686272E-01,-4.051077E-02,-2.130203E-03,7.674578E-02,-2.282522E-03,4.478325E-03}, EIRFunT = {9.801548E-01,2.026687E-02,1.578707E-03,-2.077442E-02,9.180399E-04,-2.105614E-03}, EIRFunPLR = {2.013555E-01,1.055744E-02,-2.587525E-05,-3.074339E-01,1.634011E+00,-9.188562E-03,0.000000E+00,-5.458636E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YK 2237kW/6.41COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2275kW_6_32COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2275kW_6_32COP_Vanes

ReformEIRChiller York YK 2275kW/6.32COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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
    1.04,                    !- 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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.13Minimum part unload ratio
RealPLRMin0.13Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.66Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2275200Reference capacity (negative number) [W]
RealCOP_nominal6.32Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.11356Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{9.227391E-01,-3.381914E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{8.910758E-01,4.115735E-03,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{2.464807E-01,6.198472E-03,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.78Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.17Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YK_2275kW_6_32COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2275200, COP_nominal = 6.32, PLRMin = 0.13, PLRMinUnl = 0.13, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.11356, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 31.66, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 18.78, TConLvgMax = 273.15 + 35.17, capFunT = {9.227391E-01,-3.381914E-02,4.402874E-04,2.528344E-02,-1.131217E-03,2.844510E-03}, EIRFunT = {8.910758E-01,4.115735E-03,-2.403988E-04,-1.277389E-02,6.650664E-04,-8.163142E-04}, EIRFunPLR = {2.464807E-01,6.198472E-03,-2.091245E-05,-1.584035E-01,1.396936E+00,-5.134757E-03,0.000000E+00,-4.982764E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YK 2275kW/6.32COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2300kW_8_10COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2300kW_8_10COP_Vanes

ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.23Minimum part unload ratio
RealPLRMin0.23Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.58Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2299900Reference capacity (negative number) [W]
RealCOP_nominal8.10Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07571Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09085Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 4.44Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{4.945951E-02,1.763194E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.870347E-01,1.176508E-02,5...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-8.187804E-01,9.052788E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.58Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.79Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_2300kW_8_10COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2299900, COP_nominal = 8.10, PLRMin = 0.23, PLRMinUnl = 0.23, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.07571, mCon_flow_nominal = 1000 * 0.09085, TEvaLvg_nominal = 273.15 + 4.44, TConLvg_nominal = 273.15 + 19.58, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 19.58, TConLvgMax = 273.15 + 34.79, capFunT = {4.945951E-02,1.763194E-02,-1.707908E-03,8.024411E-02,-2.301455E-03,2.334434E-03}, EIRFunT = {6.870347E-01,1.176508E-02,5.473075E-04,1.235577E-02,3.200085E-04,-1.378535E-03}, EIRFunPLR = {-8.187804E-01,9.052788E-02,-2.443564E-04,-2.116230E+00,5.680799E+00,-7.780553E-02,0.000000E+00,-1.907348E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 2300kW/8.10COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2317kW_6_33COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2317kW_6_33COP_VSD

ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 35.10Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2317400Reference capacity (negative number) [W]
RealCOP_nominal6.33Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.09085Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.11356Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.632457E-01,4.608638E-03,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{2.905409E-01,-2.093028E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-4.540034E-01,3.433262E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.67Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.67Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_2317kW_6_33COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2317400, COP_nominal = 6.33, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.09085, mCon_flow_nominal = 1000 * 0.11356, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 35.10, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.67, TConLvgMax = 273.15 + 35.67, capFunT = {6.632457E-01,4.608638E-03,-1.100111E-03,1.651605E-02,-4.753748E-04,1.648311E-03}, EIRFunT = {2.905409E-01,-2.093028E-02,9.792522E-04,1.493146E-02,3.511684E-04,-8.356167E-04}, EIRFunPLR = {-4.540034E-01,3.433262E-02,4.845589E-05,9.799190E-01,2.028044E-01,-3.705958E-02,0.000000E+00,3.066979E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 2317kW/6.33COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_2391kW_6_77COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_2391kW_6_77COP_Vanes

ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.65Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2391300Reference capacity (negative number) [W]
RealCOP_nominal6.77Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06858Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.0846Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.22Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.092340E-01,-7.214951E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.095032E-01,-1.108553E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{4.306200E-01,-7.328716E-03,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.67Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.22Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.72Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.63Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_2391kW_6_77COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2391300, COP_nominal = 6.77, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.06858, mCon_flow_nominal = 1000 * 0.0846, TEvaLvg_nominal = 273.15 + 7.22, TConLvg_nominal = 273.15 + 31.65, TEvaLvgMin = 273.15 + 6.67, TEvaLvgMax = 273.15 + 12.22, TConLvgMin = 273.15 + 19.72, TConLvgMax = 273.15 + 32.63, capFunT = {-1.092340E-01,-7.214951E-02,-1.929403E-03,1.073964E-01,-2.585892E-03,4.163448E-03}, EIRFunT = {6.095032E-01,-1.108553E-02,6.938966E-04,1.166583E-02,2.514251E-04,-7.733820E-04}, EIRFunPLR = {4.306200E-01,-7.328716E-03,9.930747E-06,9.234623E-01,-1.158929E+00,6.792175E-03,0.000000E+00,8.117517E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 2391kW/6.77COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_2391kW_6_44COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Carrier_19XR_2391kW_6_44COP_VSD

ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.70Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2391300Reference capacity (negative number) [W]
RealCOP_nominal6.44Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.06858Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.0846Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 7.22Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-1.105784E-01,-7.215657E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{6.030335E-01,-1.099862E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{1.309393E-01,1.443518E-02,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.67Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.22Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.76Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 32.68Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Carrier_19XR_2391kW_6_44COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2391300, COP_nominal = 6.44, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.06858, mCon_flow_nominal = 1000 * 0.0846, TEvaLvg_nominal = 273.15 + 7.22, TConLvg_nominal = 273.15 + 31.70, TEvaLvgMin = 273.15 + 6.67, TEvaLvgMax = 273.15 + 12.22, TConLvgMin = 273.15 + 19.76, TConLvgMax = 273.15 + 32.68, capFunT = {-1.105784E-01,-7.215657E-02,-1.924398E-03,1.073110E-01,-2.578512E-03,4.153768E-03}, EIRFunT = {6.030335E-01,-1.099862E-02,6.898379E-04,1.213607E-02,2.415707E-04,-7.792847E-04}, EIRFunPLR = {1.309393E-01,1.443518E-02,-9.784460E-07,-8.596110E-01,2.724452E+00,-1.436270E-02,0.000000E+00,-9.969677E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Carrier 19XR 2391kW/6.44COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2412kW_5_58COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2412kW_5_58COP_Vanes

ReformEIRChiller York YK 2412kW/5.58COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.01Maximum part load ratio
RealPLRMinUnl0.12Minimum part unload ratio
RealPLRMin0.12Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 32.10Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2412400Reference capacity (negative number) [W]
RealCOP_nominal5.58Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.09085Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.11356Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.042244E-01,-5.282819E-03,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{3.175495E-01,-2.563749E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-8.659288E-02,4.280342E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.30Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.78Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YK_2412kW_5_58COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2412400, COP_nominal = 5.58, PLRMin = 0.12, PLRMinUnl = 0.12, PLRMax = 1.01, mEva_flow_nominal = 1000 * 0.09085, mCon_flow_nominal = 1000 * 0.11356, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 32.10, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 21.30, TConLvgMax = 273.15 + 35.78, capFunT = {6.042244E-01,-5.282819E-03,-1.993748E-04,2.972266E-02,-8.288016E-04,1.587869E-03}, EIRFunT = {3.175495E-01,-2.563749E-02,1.177157E-03,3.422467E-02,-2.556973E-04,-1.034934E-04}, EIRFunPLR = {-8.659288E-02,4.280342E-02,4.027354E-05,-8.726041E-01,3.432389E+00,-4.514744E-02,0.000000E+00,-1.440179E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YK 2412kW/5.58COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_2462kW_6_67COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_2462kW_6_67COP_Vanes

ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.02Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.44Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2461600Reference capacity (negative number) [W]
RealCOP_nominal6.67Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07066Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.10157Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{4.142265E-01,1.542602E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{5.570216E-01,9.193251E-03,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-8.594949E-01,6.566973E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 21.31Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 31.55Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PFH_2462kW_6_67COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2461600, COP_nominal = 6.67, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.02, mEva_flow_nominal = 1000 * 0.07066, mCon_flow_nominal = 1000 * 0.10157, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 29.44, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 21.31, TConLvgMax = 273.15 + 31.55, capFunT = {4.142265E-01,1.542602E-02,-7.911049E-03,7.508392E-02,-2.773731E-03,5.837360E-03}, EIRFunT = {5.570216E-01,9.193251E-03,-5.145487E-03,6.832209E-03,1.403064E-04,1.590130E-03}, EIRFunPLR = {-8.594949E-01,6.566973E-02,1.939985E-05,1.001788E+00,1.280680E-01,-6.652851E-02,0.000000E+00,7.389430E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PFH 2462kW/6.67COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHG670_44_86_2490kW_6_5COP Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHG670_44_86_2490kW_6_5COP

ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    5.6,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    VariableFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.001Maximum part load ratio
RealPLRMinUnl0.087Minimum part unload ratio
RealPLRMin0.087Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 35.24Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2490036Reference capacity (negative number) [W]
RealCOP_nominal6.505Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.08894Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.13400Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{0.403602663,-0.006794189,-0...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.056335684,0.045975279,0.0...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{0.243594787,-0.017680952,0....Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.60Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 7.20Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 30.8Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 36.9Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHG670_44_86_2490kW_6_5COP = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2490036, COP_nominal = 6.505, PLRMin = 0.087, PLRMinUnl = 0.087, PLRMax = 1.001, mEva_flow_nominal = 1000 * 0.08894, mCon_flow_nominal = 1000 * 0.13400, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 35.24, TEvaLvgMin = 273.15 + 5.60, TEvaLvgMax = 273.15 + 7.20, TConLvgMin = 273.15 + 30.8, TConLvgMax = 273.15 + 36.9, capFunT = {0.403602663,-0.006794189,-0.000564953,0.046104574,-0.00117838,0.00215062}, EIRFunT = {1.056335684,0.045975279,0.001839862,-0.028575058,0.000935916,-0.002552237}, EIRFunPLR = {0.243594787,-0.017680952,0.000731787,0.848300868,-0.358252903,0.000896547,-9.0516E-06,0.736449508,0.000316148,-0.022213923}, etaMotor = 1.0) "ReformEIRChiller Trane CVHG670-44&86 2490kW/6.5COP";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2567kW_11_77COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2567kW_11_77COP_VSD

ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.11Minimum part unload ratio
RealPLRMin0.11Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 17.18Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2567100Reference capacity (negative number) [W]
RealCOP_nominal11.77Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.12113Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.15142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 4.44Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{3.150690E-01,7.668658E-03,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{3.654848E-01,-3.708915E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-2.955643E-01,2.586243E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 17.02Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.24Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_2567kW_11_77COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2567100, COP_nominal = 11.77, PLRMin = 0.11, PLRMinUnl = 0.11, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.12113, mCon_flow_nominal = 1000 * 0.15142, TEvaLvg_nominal = 273.15 + 4.44, TConLvg_nominal = 273.15 + 17.18, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 17.02, TConLvgMax = 273.15 + 35.24, capFunT = {3.150690E-01,7.668658E-03,-4.348521E-03,4.998865E-02,-1.242078E-03,3.158318E-03}, EIRFunT = {3.654848E-01,-3.708915E-02,-7.448564E-04,4.585429E-02,1.719990E-04,-3.518960E-04}, EIRFunPLR = {-2.955643E-01,2.586243E-02,3.917081E-05,7.440108E-01,3.533880E-01,-2.797714E-02,0.000000E+00,2.247632E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 2567kW/11.77COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2771kW_6_84COP_VSD Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_2771kW_6_84COP_VSD

ReformEIRChiller York YK 2771kW/6.84COP/VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 28.91Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2771100Reference capacity (negative number) [W]
RealCOP_nominal6.84Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.10094Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.15142Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{4.744171E-01,3.178084E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{8.286811E-01,2.304403E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-6.205477E-01,5.913283E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 18.24Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.26Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YK_2771kW_6_84COP_VSD = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2771100, COP_nominal = 6.84, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.10094, mCon_flow_nominal = 1000 * 0.15142, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 28.91, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 18.24, TConLvgMax = 273.15 + 34.26, capFunT = {4.744171E-01,3.178084E-02,-1.802780E-03,5.380910E-02,-1.642699E-03,1.330445E-03}, EIRFunT = {8.286811E-01,2.304403E-02,-6.841126E-04,-1.886483E-02,1.088152E-03,-1.846484E-03}, EIRFunPLR = {-6.205477E-01,5.913283E-02,-1.627433E-05,1.051821E-01,1.413365E+00,-5.839529E-02,0.000000E+00,9.424834E-02,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YK 2771kW/6.84COP/VSD";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2799kW_6_40COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_Trane_CVHF_2799kW_6_40COP_Vanes

ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.20Minimum part unload ratio
RealPLRMin0.20Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.74Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-2799200Reference capacity (negative number) [W]
RealCOP_nominal6.40Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.09893Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.13761Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{-2.176308E-01,-4.941294E-02...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{-1.986966E-02,-7.848021E-02...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.516172E-01,9.213025E-03,-...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 4.44Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.38Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.07Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_Trane_CVHF_2799kW_6_40COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -2799200, COP_nominal = 6.40, PLRMin = 0.20, PLRMinUnl = 0.20, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.09893, mCon_flow_nominal = 1000 * 0.13761, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 31.74, TEvaLvgMin = 273.15 + 4.44, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 20.38, TConLvgMax = 273.15 + 35.07, capFunT = {-2.176308E-01,-4.941294E-02,8.700615E-05,9.612083E-02,-2.027636E-03,2.538833E-03}, EIRFunT = {-1.986966E-02,-7.848021E-02,1.944174E-03,7.122651E-02,-9.173802E-04,5.837817E-04}, EIRFunPLR = {3.516172E-01,9.213025E-03,-2.382325E-05,1.223162E-01,-1.820075E-01,-7.843422E-03,0.000000E+00,6.884847E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller Trane CVHF 2799kW/6.40COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_3133kW_9_16COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YT_3133kW_9_16COP_Vanes

ReformEIRChiller York YT 3133kW/9.16COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.04Maximum part load ratio
RealPLRMinUnl0.07Minimum part unload ratio
RealPLRMin0.07Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 19.37Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-3133300Reference capacity (negative number) [W]
RealCOP_nominal9.16Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.08076Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.12618Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{6.112157E-01,-1.430728E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{8.749714E-01,-2.881975E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{3.389568E-01,-1.864923E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 19.37Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 35.91Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_York_YT_3133kW_9_16COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -3133300, COP_nominal = 9.16, PLRMin = 0.07, PLRMinUnl = 0.07, PLRMax = 1.04, mEva_flow_nominal = 1000 * 0.08076, mCon_flow_nominal = 1000 * 0.12618, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 19.37, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 19.37, TConLvgMax = 273.15 + 35.91, capFunT = {6.112157E-01,-1.430728E-02,9.823748E-05,3.293543E-02,-1.221859E-03,2.659301E-03}, EIRFunT = {8.749714E-01,-2.881975E-02,2.003695E-03,7.313755E-03,5.578288E-04,-1.170615E-03}, EIRFunPLR = {3.389568E-01,-1.864923E-02,3.548361E-04,1.107404E+00,-5.912797E-01,-4.559304E-04,0.000000E+00,3.910858E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller York YT 3133kW/9.16COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_3165kW_6_48COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_3165kW_6_48COP_Vanes

ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.03Maximum part load ratio
RealPLRMinUnl0.10Minimum part unload ratio
RealPLRMin0.10Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 29.19Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-3165000Reference capacity (negative number) [W]
RealCOP_nominal6.48Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.09085Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.13627Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 5.56Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{1.575783E+00,3.340085E-02,-...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{1.176153E+00,2.944151E-02,-...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-1.080715E+00,7.856030E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 5.56Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 8.89Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 20.90Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 31.43Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PFH_3165kW_6_48COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -3165000, COP_nominal = 6.48, PLRMin = 0.10, PLRMinUnl = 0.10, PLRMax = 1.03, mEva_flow_nominal = 1000 * 0.09085, mCon_flow_nominal = 1000 * 0.13627, TEvaLvg_nominal = 273.15 + 5.56, TConLvg_nominal = 273.15 + 29.19, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 8.89, TConLvgMin = 273.15 + 20.90, TConLvgMax = 273.15 + 31.43, capFunT = {1.575783E+00,3.340085E-02,-1.294551E-02,-2.136229E-02,-1.076276E-03,7.287288E-03}, EIRFunT = {1.176153E+00,2.944151E-02,-1.226585E-02,-3.542539E-02,4.663835E-04,4.521499E-03}, EIRFunPLR = {-1.080715E+00,7.856030E-02,-1.461231E-04,1.153308E+00,-1.705463E-01,-7.105856E-02,0.000000E+00,1.002552E+00,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PFH 3165kW/6.48COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_4020kW_7_35COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_McQuay_PFH_4020kW_7_35COP_Vanes

ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.05Maximum part load ratio
RealPLRMinUnl0.14Minimum part unload ratio
RealPLRMin0.14Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 23.88Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-4019500Reference capacity (negative number) [W]
RealCOP_nominal7.35Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.07874Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.09842Nominal mass flow at condenser [kg/s]
TemperatureTEvaLvg_nominal273.15 + 6.67Temperature of fluid leaving evaporator at nominal condition [K]
Performance curves
RealcapFunT[nCapFunT]{7.840238E-01,-2.030602E-02,...Biquadratic coefficients for capFunT
RealEIRFunT[nEIRFunT]{9.146197E-01,-2.888281E-02,...Biquadratic coefficients for EIRFunT
RealEIRFunPLR[nEIRFunPLR]{-6.055569E-01,4.924519E-02,...Coefficients for EIRFunPLR
TemperatureTEvaLvgMin273.15 + 6.67Minimum value for leaving evaporator temperature [K]
TemperatureTEvaLvgMax273.15 + 12.22Maximum value for leaving evaporator temperature [K]
TemperatureTConLvgMin273.15 + 23.88Minimum value for leaving condenser temperature [K]
TemperatureTConLvgMax273.15 + 34.13Maximum value for leaving condenser temperature [K]

Modelica definition

record ReformEIRChiller_McQuay_PFH_4020kW_7_35COP_Vanes = Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic ( QEva_flow_nominal = -4019500, COP_nominal = 7.35, PLRMin = 0.14, PLRMinUnl = 0.14, PLRMax = 1.05, mEva_flow_nominal = 1000 * 0.07874, mCon_flow_nominal = 1000 * 0.09842, TEvaLvg_nominal = 273.15 + 6.67, TConLvg_nominal = 273.15 + 23.88, TEvaLvgMin = 273.15 + 6.67, TEvaLvgMax = 273.15 + 12.22, TConLvgMin = 273.15 + 23.88, TConLvgMax = 273.15 + 34.13, capFunT = {7.840238E-01,-2.030602E-02,-6.024097E-03,3.464466E-02,-2.015835E-03,5.876334E-03}, EIRFunT = {9.146197E-01,-2.888281E-02,-4.194058E-04,1.312299E-03,3.957170E-04,1.747410E-04}, EIRFunPLR = {-6.055569E-01,4.924519E-02,-2.046580E-05,3.574244E-01,1.429584E+00,-4.800957E-02,0.000000E+00,-1.995032E-01,0.000000E+00,0.000000E+00}, etaMotor = 1.0) "ReformEIRChiller McQuay PFH 4020kW/7.35COP/Vanes";

Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_4396kW_6_63COP_Vanes Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.ReformEIRChiller_York_YK_4396kW_6_63COP_Vanes

ReformEIRChiller York YK 4396kW/6.63COP/Vanes

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
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
    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,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode Type
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Extends from Buildings.Fluid.Chillers.Data.ElectricReformulatedEIR.Generic (Generic data record for chiller ElectricReformulatedEIR).

Parameters

TypeNameDefaultDescription
RealPLRMax1.05Maximum part load ratio
RealPLRMinUnl0.41Minimum part unload ratio
RealPLRMin0.41Minimum part load ratio
RealetaMotor1.0Fraction of compressor motor heat entering refrigerant
TemperatureTConLvg_nominal273.15 + 31.58Temperature of fluid leaving condenser at nominal condition [K]
Nominal condition
HeatFlowRateQEva_flow_nominal-4395800Reference capacity (negative number) [W]
RealCOP_nominal6.63Reference coefficient of performance
MassFlowRatemEva_flow_nominal1000*0.19558Nominal mass flow at evaporator [kg/s]
MassFlowRatemCon_flow_nominal1000*0.24605Nominal mass flow at condenser [kg/s]