.Buildings.Fluid.Chillers.Data.ElectricEIR.ElectricEIRChiller_York_YT_897kW_6_27COP_VSD

Information

Performance data for chiller model. This data corresponds to the following EnergyPlus model:
Chiller:Electric:EIR,
    ElectricEIRChiller York YT 897kW/6.27COP/VSD,  !- Name
    896700,                  !- Reference Capacity {W}
    6.27,                    !- Reference COP {W/W}
    6.67,                    !- Reference Leaving Chilled Water Temperature {C}
    22.78,                   !- Reference Entering Condenser Fluid Temperature {C}
    0.06782,                 !- Reference Chilled Water Flow Rate {m3/s}
    0.05142,                 !- Reference Condenser Water Flow Rate {m3/s}
    ElectricEIRChiller York YT 897kW/6.27COP/VSD CAPFT,  !- Cooling Capacity Function of Temperature Curve Name
    ElectricEIRChiller York YT 897kW/6.27COP/VSD EIRFT,  !- Electric Input to Cooling Output Ratio Function of Temperature Curve Name
    ElectricEIRChiller York YT 897kW/6.27COP/VSD EIRFPLR,  !- Electric Input to Cooling Output Ratio Function of Part Load Ratio Curve Name
    0.10,                    !- Minimum Part Load Ratio
    1.02,                    !- Maximum Part Load Ratio
    1.0,                     !- Optimum Part Load Ratio
    0.10,                    !- Minimum Unloading Ratio
    Chilled Water Side Inlet Node,  !- Chilled Water Inlet Node Name
    Chilled Water Side Outlet Node,  !- Chilled Water Outlet Node Name
    Condenser Side Inlet Node,  !- Condenser Inlet Node Name
    Condenser Side Outlet Node,  !- Condenser Outlet Node Name
    WaterCooled,             !- Condenser Type
    ,                        !- Condenser Fan Power Ratio {W/W}
    1.0,                     !- Compressor Motor Efficiency
    2.0,                     !- Leaving Chilled Water Lower Temperature Limit {C}
    ConstantFlow,            !- Chiller Flow Mode
    0.0;                     !- Design Heat Recovery Water Flow Rate {m3/s}

Definition

record ElectricEIRChiller_York_YT_897kW_6_27COP_VSD = Buildings.Fluid.Chillers.Data.ElectricEIR.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, TConEnt_nominal = 273.15 + 22.78, TEvaLvgMin = 273.15 + 5.56, TEvaLvgMax = 273.15 + 10.00, TConEntMin = 273.15 + 12.78, TConEntMax = 273.15 + 23.89, capFunT = {1.197991E-01, 1.568955E-01, -4.426242E-03, 3.449640E-02, -8.163597E-04, -2.236230E-03}, EIRFunT = {5.530767E-01, -5.683068E-02, 4.423475E-03, 6.472411E-02, -7.378933E-04, -2.491202E-03}, EIRFunPLR = {9.836320E-02, -1.638320E-02, 9.127289E-01}, etaMotor = 1.0);

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