This package contains performance curves for the cooling capacity and the EIR of DX cooling coils that are used in the examples.
For performance data of specific DX cooling coils, see the packages Buildings.Fluid.HeatExchangers.DXCoils.Data.SingleSpeed and Buildings.Fluid.HeatExchangers.DXCoils.Data.DoubleSpeed.
The data are described in Buildings.Fluid.HeatExchangers.DXCoils.Data.Generic.DXCoil.
Name | Description |
---|---|
Curve_I | Curve_I |
Curve_II | Curve_II |
Curve_III | Curve_III |
This record declares performance curves for the cooling capacity and the EIR.
It has been obtained from the EnergyPlus 7.1 example file
>AirflowNetwork_MultiZone_House.idf
>.
Extends from Buildings.Fluid.HeatExchangers.DXCoils.Data.Generic.BaseClasses.PerformanceCurve (Data record for a performance curve).
Type | Name | Default | Description |
---|---|---|---|
Performance curves | |||
Real | capFunT[6] | {0.942587793,0.009543347,0.0... | Biquadratic coefficients for cooling capacity function of temperature |
Real | capFunFF[:] | {0.8,0.2,0,0} | Polynomial coefficients for cooling capacity function of flow fration |
Real | EIRFunT[6] | {0.342414409,0.034885008,-0.... | Biquadratic coefficients for EIR function of temperature |
Real | EIRFunFF[:] | {1.1552,-0.1808,0.0256,0} | Polynomial coefficients for EIR function of flow fration |
Minimum and maximum values | |||
Temperature | TConInMin | 291.15 | Minimum condenser inlet temperature for cooling capacity function [K] |
Temperature | TConInMax | 319.26111 | Maximum condenser inlet temperature for cooling capacity function [K] |
Temperature | TEvaInMin | 285.92778 | Minimum evaporator inlet temperature for cooling capacity function [K] |
Temperature | TEvaInMax | 297.03889 | Maximum evaporator inlet temperature for cooling capacity function [K] |
Real | ffMin | 0.6 | Minimum flow fraction for which performance data are valid |
Real | ffMax | 1.8 | Maximum flow fraction for which performance data are valid |
record Curve_I "Curve_I" extends Buildings.Fluid.HeatExchangers.DXCoils.Data.Generic.BaseClasses.PerformanceCurve ( each capFunT={0.942587793,0.009543347,0.000683770,-0.011042676,0.000005249, -0.000009720}, each capFunFF={0.8,0.2,0,0}, each EIRFunT={0.342414409,0.034885008,-0.000623700,0.004977216,0.000437951, -0.000728028}, each EIRFunFF={1.1552,-0.1808,0.0256,0}, TConInMin=291.15, TConInMax = 319.26111, TEvaInMin= 285.92778, TEvaInMax= 297.03889, ffMin=0.6, ffMax=1.8);end Curve_I;
This record declares performance curves for the cooling capacity and the EIR.
It has been obtained from the EnergyPlus 7.1 example file
>DXCoilSystemAuto.idf
>.
Extends from Buildings.Fluid.HeatExchangers.DXCoils.Data.Generic.BaseClasses.PerformanceCurve (Data record for a performance curve).
Type | Name | Default | Description |
---|---|---|---|
Performance curves | |||
Real | capFunT[6] | {0.766956,0.0107756,-0.00004... | Biquadratic coefficients for cooling capacity function of temperature |
Real | capFunFF[:] | {0.8,0.2,0,0} | Polynomial coefficients for cooling capacity function of flow fration |
Real | EIRFunT[6] | {0.297145,0.0430933,-0.00074... | Biquadratic coefficients for EIR function of temperature |
Real | EIRFunFF[:] | {1.1552,-0.1808,0.0256,0} | Polynomial coefficients for EIR function of flow fration |
Minimum and maximum values | |||
Temperature | TConInMin | 291.15 | Minimum condenser inlet temperature for cooling capacity function [K] |
Temperature | TConInMax | 319.26111 | Maximum condenser inlet temperature for cooling capacity function [K] |
Temperature | TEvaInMin | 285.92778 | Minimum evaporator inlet temperature for cooling capacity function [K] |
Temperature | TEvaInMax | 297.03889 | Maximum evaporator inlet temperature for cooling capacity function [K] |
Real | ffMin | 0.5 | Minimum flow fraction for which performance data are valid |
Real | ffMax | 1.5 | Maximum flow fraction for which performance data are valid |
record Curve_II "Curve_II" extends Buildings.Fluid.HeatExchangers.DXCoils.Data.Generic.BaseClasses.PerformanceCurve ( each capFunT={0.766956,0.0107756,-0.0000414703,0.00134961,-0.000261144, 0.000457488}, each capFunFF={0.8,0.2,0,0}, each EIRFunT={0.297145,0.0430933,-0.000748766,0.00597727,0.000482112,-0.000956448}, each EIRFunFF={1.1552,-0.1808,0.0256,0}, TConInMin=291.15, TConInMax = 319.26111, TEvaInMin= 285.92778, TEvaInMax= 297.03889, ffMin=0.5, ffMax=1.5);end Curve_II;
This record declares performance curves for the cooling capacity and the EIR.
It has been obtained from the EnergyPlus 7.1 example file
>5ZoneAutoDXVAV.idf
>.
Extends from Buildings.Fluid.HeatExchangers.DXCoils.Data.Generic.BaseClasses.PerformanceCurve (Data record for a performance curve).
Type | Name | Default | Description |
---|---|---|---|
Performance curves | |||
Real | capFunT[6] | {0.476428,0.0401147000,0.000... | Biquadratic coefficients for cooling capacity function of temperature |
Real | capFunFF[:] | {0.47278589,1.2433415,-1.038... | Polynomial coefficients for cooling capacity function of flow fration |
Real | EIRFunT[6] | {0.632475,-0.0121321000,0.00... | Biquadratic coefficients for EIR function of temperature |
Real | EIRFunFF[:] | {1.0079484,0.34544129,-0.692... | Polynomial coefficients for EIR function of flow fration |
Minimum and maximum values | |||
Temperature | TConInMin | 297.03889 | Minimum condenser inlet temperature for cooling capacity function [K] |
Temperature | TConInMax | 319.26111 | Maximum condenser inlet temperature for cooling capacity function [K] |
Temperature | TEvaInMin | 285.92778 | Minimum evaporator inlet temperature for cooling capacity function [K] |
Temperature | TEvaInMax | 297.03889 | Maximum evaporator inlet temperature for cooling capacity function [K] |
Real | ffMin | 0.5 | Minimum flow fraction for which performance data are valid |
Real | ffMax | 1.5 | Maximum flow fraction for which performance data are valid |
record Curve_III "Curve_III" extends Buildings.Fluid.HeatExchangers.DXCoils.Data.Generic.BaseClasses.PerformanceCurve ( each capFunT={0.476428,0.0401147000,0.0002264110,-0.0008271360,-0.0000073224, -0.0004462780}, each capFunFF={0.47278589,1.2433415,-1.0387055,0.32257813}, each EIRFunT={0.632475,-0.0121321000,0.0005077730,0.0155377000,0.0002728400, -0.0006792010}, each EIRFunFF={1.0079484,0.34544129,-0.6922891, 0.33889943}, TConInMin = 297.03889, TConInMax = 319.26111, TEvaInMin = 285.92778, TEvaInMax = 297.03889, ffMin = 0.5, ffMax = 1.5);end Curve_III;