Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.EN14511

Package for EN15411 data records

Information

This package contains data records for chiller data according to European Norm 14511.

Package Content

Name Description
Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.EN14511.Carrier30XWP1012_1MW Carrier30XWP1012_1MW Carrier 30XW-P 1012 with roughly 1 MW cooling output
Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.EN14511.SingleSplitRXM20R SingleSplitRXM20R Daikin_FTXM20R_RXM20R cooling mode
Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.EN14511.Vitocal251A08 Vitocal251A08 A2W Vitocal 251 by Viessmann

Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.EN14511.Carrier30XWP1012_1MW Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.EN14511.Carrier30XWP1012_1MW

Carrier 30XW-P 1012 with roughly 1 MW cooling output

Information

Performance data for Daikin FTXM20R_RXM20R for the cooling mode.

Boundaries are for dry-bulb temperature.

References

Carrier, Water-Cooled Liquid Chillers Pro-Dialog plus, 30XW- 30XWHDaikin http://www.carrier.com.kw/pdf/pdf/Chilled%20Water%20Products/30XW.pdf

Extends from Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.Generic (Basic chiller data).

Contents

TypeNameDefaultDescription
RealtabPEle[:, :][0, 298.15, 303.15, 308.15, ...Electrical power consumption table, T in K, Q_flow in W
MassFlowRatemCon_flow_nominal49.85Nominal mass flow rate in condenser [kg/s]
MassFlowRatemEva_flow_nominal49.85Nominal mass flow rate in evaporator [kg/s]
PressureDifferencedpCon_nominal32000Nominal pressure drop in condenser [Pa]
PressureDifferencedpEva_nominal44000Nominal pressure drop in evaporator [Pa]
StringdevIde"Carrier30XWP1012"Name of the device
Booleanuse_TEvaOutForTabtrue=true to use evaporator outlet temperature for table data, false for inlet
Booleanuse_TConOutForTabfalse=true to use condenser outlet temperature for table data, false for inlet
RealtabQEva_flow[:, :][0, 298.15, 303.15, 308.15, ...Cooling power consumption table, T in K, Q_flow in W
RealtabLowBou[:, 2][293.15, 276.15; 323.15, 276...Points to define lower boundary for source temperature
Booleanuse_TEvaOutForOpeEnvtrue=true to use evaporator outlet temperature for operational envelope, false for inlet
Booleanuse_TConOutForOpeEnvtrue=true to use condenser outlet temperature for operational envelope, false for inlet

Modelica definition

record Carrier30XWP1012_1MW "Carrier 30XW-P 1012 with roughly 1 MW cooling output" extends Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.Generic( tabQEva_flow=[0,298.15,303.15,308.15,313.15,318.15; 278.15,-1003000,-968000, -932000,-894000,-854000; 280.15,-1054000,-1035000,-995000,-954000,-911000; 283.15, -1102000,-1120000,-1096000,-1050000,-1002000; 288.15,-1181000,-1199000,-1226000, -1227000,-1170000; 291.15,-1227000,-1244000,-1275000,-1311000,-1278000], tabPEle=[0,298.15,303.15,308.15,313.15,318.15; 278.15,158954,181955,208036, 237766,271111; 280.15,159215,182218,208159,237905,271131; 283.15,159479, 182708,208762,238095,271545; 288.15,160462,183333,209573,239648,272727; 291.15,161024,183752,210396,240550,274249], mCon_flow_nominal=49.85, mEva_flow_nominal=49.85, dpCon_nominal=32000, dpEva_nominal=44000, tabLowBou=[293.15,276.15; 323.15,276.15], devIde="Carrier30XWP1012", use_TConOutForOpeEnv=true, use_TEvaOutForOpeEnv=true, use_TConOutForTab=false, use_TEvaOutForTab=true); end Carrier30XWP1012_1MW;

Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.EN14511.SingleSplitRXM20R Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.EN14511.SingleSplitRXM20R

Daikin_FTXM20R_RXM20R cooling mode

Information

Performance data for Daikin FTXM20R_RXM20R for the cooling mode.

Boundaries are for dry-bulb temperature. Pressure drops are not provided in the datasheet.

References

Daikin, Technical data book RXM-R https://www.heizman24.de/media/pdf/fa/50/2c/Daikin-RXM-R-Produktdatenbuch.pdf

Extends from Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.Generic (Basic chiller data).

Contents

TypeNameDefaultDescription
RealtabPEle[:, :][0, 298.15, 303.15, 308.15, ...Electrical power consumption table, T in K, Q_flow in W
MassFlowRatemCon_flow_nominal36*1.2/60Nominal mass flow rate in condenser [kg/s]
MassFlowRatemEva_flow_nominal(9.642*1.2)/60Nominal mass flow rate in evaporator [kg/s]
PressureDifferencedpCon_nominal0Nominal pressure drop in condenser [Pa]
PressureDifferencedpEva_nominal0Nominal pressure drop in evaporator [Pa]
StringdevIde"DaikinRXM20R"Name of the device
Booleanuse_TEvaOutForTabfalse=true to use evaporator outlet temperature for table data, false for inlet
Booleanuse_TConOutForTabfalse=true to use condenser outlet temperature for table data, false for inlet
RealtabQEva_flow[:, :][0, 298.15, 303.15, 308.15, ...Cooling power consumption table, T in K, Q_flow in W
RealtabLowBou[:, 2][263.15, 291.15; 323.15, 291...Points to define lower boundary for source temperature
Booleanuse_TEvaOutForOpeEnvfalse=true to use evaporator outlet temperature for operational envelope, false for inlet
Booleanuse_TConOutForOpeEnvfalse=true to use condenser outlet temperature for operational envelope, false for inlet

Modelica definition

record SingleSplitRXM20R "Daikin_FTXM20R_RXM20R cooling mode" extends Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.Generic( dpEva_nominal=0, dpCon_nominal=0, tabPEle=[0,298.15,303.15,308.15,313.15; 293.15,340,370,400,410,430,470; 295.15,340,370,400,420,430,470; 298.15,340,370,400,420,440,470; 300.15, 340,370,410,420,440,470; 303.15,340,380,410,420,440,470; 305.15,350,380, 410,420,440,470], tabQEva_flow=[0,298.15,303.15,308.15,313.15; 293.15,-2050,-1960,-1860,-1830,-1770, -1680; 295.15,-2140,-2050,-1950,-1920,-1860,-1770; 298.15,-2230,-2140,-2050,-2010, -1950,-1860; 300.15,-2280,-2190,-2090,-2060,-2000,1910; 303.15,-2420,-2320,-2230, -2190,-2140,-2050; 305.15,-2510,-2420,-2320,-2290,-2230,-2140], mCon_flow_nominal=36*1.2/60, mEva_flow_nominal=(9.642*1.2)/60, tabLowBou=[263.15,291.15; 323.15,291.15], devIde="DaikinRXM20R", use_TConOutForOpeEnv=false, use_TEvaOutForOpeEnv=false, use_TConOutForTab=false, use_TEvaOutForTab=false); end SingleSplitRXM20R;

Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.EN14511.Vitocal251A08 Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.EN14511.Vitocal251A08

A2W Vitocal 251 by Viessmann

Information

Data from the planning book (Planungshandbuch) from Viessmann.

While the product exists in different sizes, this record contains the data for the subtype 251-A08. If you want to model the pressure losses of the device, check out the data sheet and the installed pumps. The pressure loss depends mostly on the hydraulic system according to the datasheet.

The nominal mass flow rate is calculated for the nominal point A7/W35, with a temperature spread of 5 K.

References

Viessmann, Planungshandbuch. https://www.haustechnik-handrich.de/media/pdf/54/c4/14/vie-pa-z022164.pdf.

Extends from Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.Generic (Basic chiller data).

Contents

TypeNameDefaultDescription
RealtabPEle[:, :][0, 293.15, 298.15, 300.15, ...Electrical power consumption table, T in K, Q_flow in W
MassFlowRatemCon_flow_nominal2125/3600/1.204Nominal mass flow rate in condenser [kg/s]
MassFlowRatemEva_flow_nominal5600/5/4184Nominal mass flow rate in evaporator [kg/s]
PressureDifferencedpCon_nominal0Nominal pressure drop in condenser [Pa]
PressureDifferencedpEva_nominal0Nominal pressure drop in evaporator [Pa]
StringdevIde"Vitocal251A08"Name of the device
Booleanuse_TEvaOutForTabtrue=true to use evaporator outlet temperature for table data, false for inlet
Booleanuse_TConOutForTabfalse=true to use condenser outlet temperature for table data, false for inlet
RealtabQEva_flow[:, :][0, 293.15, 298.15, 300.15, ...Cooling power consumption table, T in K, Q_flow in W
RealtabLowBou[:, 2][283.15, 280.15; 318.15, 280...Points to define lower boundary for source temperature
Booleanuse_TEvaOutForOpeEnvtrue=true to use evaporator outlet temperature for operational envelope, false for inlet
Booleanuse_TConOutForOpeEnvfalse=true to use condenser outlet temperature for operational envelope, false for inlet

Modelica definition

record Vitocal251A08 "A2W Vitocal 251 by Viessmann" extends Buildings.Fluid.Chillers.ModularReversible.Data.TableData2D.Generic( tabLowBou=[283.15,280.15; 318.15,280.15], dpEva_nominal=0, dpCon_nominal=0, use_TConOutForOpeEnv=false, use_TEvaOutForOpeEnv=true, tabQEva_flow=[ 0, 293.15, 298.15, 300.15, 303.15, 308.15, 313.15, 318.15; 280.15, -8500, -7800, -7000, -6000, -4500, -3100, -1900; 291.15, -10300, -9900, -9700, -9300, -6900, -3400, -2800], tabPEle=[ 0, 293.15, 298.15, 300.15, 303.15, 308.15, 313.15, 318.15; 280.15, 1735, 1902, 1842, 1765, 1607, 1348, 1056; 291.15, 1493, 1707, 1764, 1860, 1725, 1259, 1037], mEva_flow_nominal=5600/5/4184, mCon_flow_nominal=2125/3600/1.204, use_TConOutForTab=false, use_TEvaOutForTab=true, devIde="Vitocal251A08"); end Vitocal251A08;