.Buildings.Fluid.DXSystems.Cooling.AirSource.Data.SingleSpeed.York_Sunline_ZR060 .Buildings.Fluid.DXSystems.Cooling.AirSource.Data.SingleSpeed.York_Sunline_ZR060Performance data for DX single speed air source cooling coil model. This data corresponds to the following EnergyPlus model:
Coil:Cooling:DX:SingleSpeed,
York Sunline ZR060, !- Name
CoolingCoilAvailSched, !- Availability Schedule Name
18687, !- Rated Total Cooling Capacity {W}
0.685, !- Rated Sensible Heat Ratio
3.98, !- Rated COP
0.944, !- Rated Air Flow Rate {m3/s}
, !- Rated Evaporator Fan Power Per Volume Flow Rate {W/(m3/s)}
DXCoilAirInletNode, !- Air Inlet Node Name
DXCoilAirOutletNode, !- Air Outlet Node Name
York Sunline ZR060 CapFT, !- Total Cooling Capacity Function of Temperature Curve Name
York Sunline ZR060 CapFFF, !- Total Cooling Capacity Function of Flow Fraction Curve Name
York Sunline ZR060 EIRFT, !- Energy Input Ratio Function of Temperature Curve Name
York Sunline ZR060 EIRFFF, !- Energy Input Ratio Function of Flow Fraction Curve Name
York Sunline ZR060 PLFFPLR; !- Part Load Fraction Correlation Curve Name
record York_Sunline_ZR060 = Buildings.Fluid.DXSystems.Cooling.AirSource.Data.SingleSpeed.Generic(sta = {Buildings.Fluid.DXSystems.Cooling.AirSource.Data.Generic.BaseClasses.Stage(spe = 1800, nomVal = Buildings.Fluid.DXSystems.Cooling.AirSource.Data.Generic.BaseClasses.NominalValues(Q_flow_nominal = -18687, COP_nominal = 3.98, SHR_nominal = 0.685, m_flow_nominal = 1.2*0.944), perCur = Buildings.Fluid.DXSystems.Cooling.AirSource.Data.Generic.BaseClasses.PerformanceCurve(capFunT = {1.1491510, -0.0161007, 0.0015936, -0.0027657, -0.0000236, -0.0004692}, capFunFF = {0.3148231, 1.0463502, -0.3708016}, EIRFunT = {0.1210878, 0.0560928, -0.0012307, 0.0092825, 0.0005999, -0.0010492}, EIRFunFF = {1.9711221, -1.6315991, 0.6688369}, TConInMin = 273.15 + 23.89, TConInMax = 273.15 + 51.67, TEvaInMin = 273.15 + 13.89, TEvaInMax = 273.15 + 25, ffMin = 0.625, ffMax = 1.25))});