Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.Validation
Collection of validation models
Information
This package contains validation models for the classes in Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.
Note that most validation models contain simple input data which may not be realistic, but for which the correct output can be obtained through an analytic solution. The examples plot various outputs, which have been verified against these solutions. These model outputs are stored as reference data and used for continuous validation whenever models in the library change.
Extends from Modelica.Icons.ExamplesPackage (Icon for packages containing runnable examples).
Package Content
| Name | Description |
|---|---|
 FMUZoneAdapterZones1
|
Validation model for the class and functions that instantiate and communicate with an FMU for Model Exchange |
| FMUZoneAdapterZones2
|
Validation model for the class and functions that instantiate and communicate with an FMU for Model Exchange |
| FMUZoneAdapterZones3
|
Validation model for the class and functions that instantiate and communicate with an FMU for Model Exchange |
Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.Validation.FMUZoneAdapterZones1
Validation model for the class and functions that instantiate and communicate with an FMU for Model Exchange
Information
Validation model that communicates with an FMU that emulates simple thermal zones. All thermal zones are identical.
This test is done to validate the FMI API, using an FMU 2.0 for Model Exchange, compiled for Linux 64 bit by JModelica.
Extends from Modelica.Icons.Example (Icon for runnable examples).
Parameters
| Type | Name | Default | Description |
|---|---|---|---|
| HeatCapacity | CZon | 6*6*2.7*1.2*1006 | Heat capacity of zone air [J/K] |
Modelica definition
model FMUZoneAdapterZones1
"Validation model for the class and functions that instantiate and communicate with an FMU for Model Exchange"
extends Modelica.Icons.Example;
parameter Modelica.Units.SI.HeatCapacity CZon=6*6*2.7*1.2*1006
"Heat capacity of zone air";
inner Building building(
idfName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/Data/ThermalZones/EnergyPlus_9_6_0/Examples/RefBldgSmallOffice/RefBldgSmallOfficeNew2004_Chicago.idf"),
epwName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/weatherdata/USA_IL_Chicago-OHare.Intl.AP.725300_TMY3.epw"),
weaName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/weatherdata/USA_IL_Chicago-OHare.Intl.AP.725300_TMY3.mos"),
computeWetBulbTemperature=false,
usePrecompiledFMU=false)
"Building model";
Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.ThermalZoneAdapter fmuZonCor(
modelicaNameBuilding=building.modelicaNameBuilding,
final spawnExe=building.spawnExe,
final idfVersion=building.idfVersion,
final idfName=building.idfName,
final epwName=building.epwName,
final relativeSurfaceTolerance=building.relativeSurfaceTolerance,
final zoneName="Core_ZN",
usePrecompiledFMU=true,
final fmuName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/src/ThermalZones/EnergyPlus_9_6_0/FMUs/Zones1.fmu"),
logLevel=building.logLevel,
final nFluPor=2)
"Adapter to EnergyPlus";
Modelica.Blocks.Sources.RealExpression X_w(
y=0.01)
"Zone absolute humidity";
Modelica.Blocks.Sources.RealExpression mIn_flow(
y=0)
"Inlet mass flow rate";
Modelica.Blocks.Math.Gain mOut_flow(
k=-1)
"Outlet mass flow rate";
Modelica.Blocks.Sources.RealExpression TIn[2](
each y=293.15)
"Inlet temperature";
Modelica.Blocks.Sources.RealExpression QGaiRad_flow(
y=0)
"Radiative heat gain for the zone";
Modelica.Blocks.Continuous.Integrator TZonCor(
k=1/CZon,
initType=Modelica.Blocks.Types.Init.InitialState,
y_start=294.15,
y(final unit="K",
displayUnit="degC"))
"Zone air temperature";
equation
connect(X_w.y,fmuZonCor.X_w);
connect(fmuZonCor.m_flow[1],mIn_flow.y);
connect(mOut_flow.u,mIn_flow.y);
connect(mOut_flow.y,fmuZonCor.m_flow[2]);
connect(TIn.y,fmuZonCor.TInlet);
connect(fmuZonCor.QGaiRad_flow,QGaiRad_flow.y);
connect(TZonCor.y,fmuZonCor.T);
connect(fmuZonCor.QCon_flow,TZonCor.u);
end FMUZoneAdapterZones1;
Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.Validation.FMUZoneAdapterZones2
Validation model for the class and functions that instantiate and communicate with an FMU for Model Exchange
Information
Validation model that communicates with an FMU that emulates two simple thermal zones. Both thermal zones are identical.
This test is done to validate the FMI API, using an FMU 2.0 for Model Exchange, compiled for Linux 64 bit by JModelica.
Extends from Modelica.Icons.Example (Icon for runnable examples).
Parameters
| Type | Name | Default | Description |
|---|---|---|---|
| HeatCapacity | CZon | 6*6*2.7*1.2*1006 | Heat capacity of zone air [J/K] |
Modelica definition
model FMUZoneAdapterZones2
"Validation model for the class and functions that instantiate and communicate with an FMU for Model Exchange"
extends Modelica.Icons.Example;
parameter Modelica.Units.SI.HeatCapacity CZon=6*6*2.7*1.2*1006
"Heat capacity of zone air";
inner Building building(
idfName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/Data/ThermalZones/EnergyPlus_9_6_0/Examples/RefBldgSmallOffice/RefBldgSmallOfficeNew2004_Chicago.idf"),
epwName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/weatherdata/USA_IL_Chicago-OHare.Intl.AP.725300_TMY3.epw"),
weaName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/weatherdata/USA_IL_Chicago-OHare.Intl.AP.725300_TMY3.mos"),
computeWetBulbTemperature=false,
usePrecompiledFMU=false)
"Building model";
Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.ThermalZoneAdapter fmuZonCor(
final modelicaNameBuilding=building.modelicaNameBuilding,
final spawnExe=building.spawnExe,
final idfVersion=building.idfVersion,
final idfName=building.idfName,
final epwName=building.epwName,
final relativeSurfaceTolerance=building.relativeSurfaceTolerance,
final zoneName="Core_ZN",
usePrecompiledFMU=true,
final fmuName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/src/ThermalZones/EnergyPlus_9_6_0/FMUs/Zones3.fmu"),
logLevel=building.logLevel,
final nFluPor=2)
"Adapter to EnergyPlus";
Modelica.Blocks.Sources.RealExpression X_w(
y=0.01)
"Zone absolute humidity";
Modelica.Blocks.Sources.RealExpression mIn_flow(
y=0)
"Inlet mass flow rate";
Modelica.Blocks.Math.Gain mOut_flow(
k=-1)
"Outlet mass flow rate";
Modelica.Blocks.Sources.RealExpression TIn[2](
each y=293.15)
"Inlet temperature";
Modelica.Blocks.Sources.RealExpression QGaiRad_flow(
y=0)
"Radiative heat gain for the zone";
Modelica.Blocks.Continuous.Integrator TZonCor(
k=1/CZon,
initType=Modelica.Blocks.Types.Init.InitialState,
y_start=294.15,
y(final unit="K",
displayUnit="degC"))
"Zone air temperature";
Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.ThermalZoneAdapter fmuZonSou(
final modelicaNameBuilding=building.modelicaNameBuilding,
final spawnExe=building.spawnExe,
final idfVersion=building.idfVersion,
final idfName=building.idfName,
final epwName=building.epwName,
final relativeSurfaceTolerance=building.relativeSurfaceTolerance,
final zoneName="South_ZN",
usePrecompiledFMU=true,
final fmuName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/src/ThermalZones/EnergyPlus_9_6_0/FMUs/Zones3.fmu"),
logLevel=building.logLevel,
final nFluPor=2)
"Adapter to EnergyPlus";
Modelica.Blocks.Continuous.Integrator TZonSou(
k=1/CZon,
initType=Modelica.Blocks.Types.Init.InitialState,
y_start=294.15,
y(final unit="K",
displayUnit="degC"))
"Zone air temperature";
equation
connect(X_w.y,fmuZonCor.X_w);
connect(fmuZonCor.m_flow[1],mIn_flow.y);
connect(mOut_flow.u,mIn_flow.y);
connect(mOut_flow.y,fmuZonCor.m_flow[2]);
connect(TIn.y,fmuZonCor.TInlet);
connect(fmuZonCor.QGaiRad_flow,QGaiRad_flow.y);
connect(X_w.y,fmuZonSou.X_w);
connect(fmuZonSou.m_flow[1],mIn_flow.y);
connect(mOut_flow.y,fmuZonSou.m_flow[2]);
connect(TIn.y,fmuZonSou.TInlet);
connect(fmuZonSou.QGaiRad_flow,QGaiRad_flow.y);
connect(TZonCor.y,fmuZonCor.T);
connect(fmuZonCor.QCon_flow,TZonCor.u);
connect(fmuZonSou.QCon_flow,TZonSou.u);
connect(TZonSou.y,fmuZonSou.T);
end FMUZoneAdapterZones2;
Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.Validation.FMUZoneAdapterZones3
Validation model for the class and functions that instantiate and communicate with an FMU for Model Exchange
Information
Validation model that communicates with an FMU that emulates three simple thermal zones. All thermal zones are identical.
This test is done to validate the FMI API, using an FMU 2.0 for Model Exchange, compiled for Linux 64 bit by JModelica.
Extends from Modelica.Icons.Example (Icon for runnable examples).
Parameters
| Type | Name | Default | Description |
|---|---|---|---|
| HeatCapacity | CZon | 6*6*2.7*1.2*1006 | Heat capacity of zone air [J/K] |
Modelica definition
model FMUZoneAdapterZones3
"Validation model for the class and functions that instantiate and communicate with an FMU for Model Exchange"
extends Modelica.Icons.Example;
parameter Modelica.Units.SI.HeatCapacity CZon=6*6*2.7*1.2*1006
"Heat capacity of zone air";
inner Building building(
idfName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/Data/ThermalZones/EnergyPlus_9_6_0/Examples/RefBldgSmallOffice/RefBldgSmallOfficeNew2004_Chicago.idf"),
epwName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/weatherdata/USA_IL_Chicago-OHare.Intl.AP.725300_TMY3.epw"),
weaName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/weatherdata/USA_IL_Chicago-OHare.Intl.AP.725300_TMY3.mos"),
computeWetBulbTemperature=false,
usePrecompiledFMU=false)
"Building model";
Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.ThermalZoneAdapter fmuZonCor(
final modelicaNameBuilding=building.modelicaNameBuilding,
final spawnExe=building.spawnExe,
final idfVersion=building.idfVersion,
final idfName=building.idfName,
final epwName=building.epwName,
final relativeSurfaceTolerance=building.relativeSurfaceTolerance,
final zoneName="Core_ZN",
usePrecompiledFMU=true,
final fmuName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/src/ThermalZones/EnergyPlus_9_6_0/FMUs/Zones3.fmu"),
logLevel=building.logLevel,
final nFluPor=2)
"Adapter to EnergyPlus";
Modelica.Blocks.Sources.RealExpression X_w(
y=0.01)
"Zone absolute humidity";
Modelica.Blocks.Sources.RealExpression mIn_flow(
y=0)
"Inlet mass flow rate";
Modelica.Blocks.Math.Gain mOut_flow(
k=-1)
"Outlet mass flow rate";
Modelica.Blocks.Sources.RealExpression TIn[2](
each y=293.15)
"Inlet temperature";
Modelica.Blocks.Sources.RealExpression QGaiRad_flow(
y=0)
"Radiative heat gain for the zone";
Modelica.Blocks.Continuous.Integrator TZonCor(
k=1/CZon,
initType=Modelica.Blocks.Types.Init.InitialState,
y_start=294.15,
y(final unit="K",
displayUnit="degC"))
"Zone air temperature";
Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.ThermalZoneAdapter fmuZonSou(
final modelicaNameBuilding=building.modelicaNameBuilding,
final spawnExe=building.spawnExe,
final idfVersion=building.idfVersion,
final idfName=building.idfName,
final epwName=building.epwName,
final relativeSurfaceTolerance=building.relativeSurfaceTolerance,
final zoneName="South_ZN",
usePrecompiledFMU=true,
final fmuName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/src/ThermalZones/EnergyPlus_9_6_0/FMUs/Zones3.fmu"),
logLevel=building.logLevel,
final nFluPor=2)
"Adapter to EnergyPlus";
Modelica.Blocks.Continuous.Integrator TZonSou(
k=1/CZon,
initType=Modelica.Blocks.Types.Init.InitialState,
y_start=294.15,
y(final unit="K",
displayUnit="degC"))
"Zone air temperature";
Buildings.ThermalZones.EnergyPlus_9_6_0.BaseClasses.ThermalZoneAdapter fmuZonNor(
final modelicaNameBuilding=building.modelicaNameBuilding,
final spawnExe=building.spawnExe,
final idfVersion=building.idfVersion,
final idfName=building.idfName,
final epwName=building.epwName,
final relativeSurfaceTolerance=building.relativeSurfaceTolerance,
final zoneName="North_ZN",
usePrecompiledFMU=true,
final fmuName=Modelica.Utilities.Files.loadResource(
"modelica://Buildings/Resources/src/ThermalZones/EnergyPlus_9_6_0/FMUs/Zones3.fmu"),
logLevel=building.logLevel,
final nFluPor=2)
"Adapter to EnergyPlus";
Modelica.Blocks.Continuous.Integrator TZonNor(
k=1/CZon,
initType=Modelica.Blocks.Types.Init.InitialState,
y_start=294.15,
y(final unit="K",
displayUnit="degC"))
"Zone air temperature";
equation
connect(X_w.y,fmuZonCor.X_w);
connect(fmuZonCor.m_flow[1],mIn_flow.y);
connect(mOut_flow.u,mIn_flow.y);
connect(mOut_flow.y,fmuZonCor.m_flow[2]);
connect(TIn.y,fmuZonCor.TInlet);
connect(fmuZonCor.QGaiRad_flow,QGaiRad_flow.y);
connect(X_w.y,fmuZonSou.X_w);
connect(fmuZonSou.m_flow[1],mIn_flow.y);
connect(mOut_flow.y,fmuZonSou.m_flow[2]);
connect(TIn.y,fmuZonSou.TInlet);
connect(fmuZonSou.QGaiRad_flow,QGaiRad_flow.y);
connect(TZonCor.y,fmuZonCor.T);
connect(X_w.y,fmuZonNor.X_w);
connect(fmuZonNor.m_flow[1],mIn_flow.y);
connect(mOut_flow.y,fmuZonNor.m_flow[2]);
connect(TIn.y,fmuZonNor.TInlet);
connect(fmuZonNor.QGaiRad_flow,QGaiRad_flow.y);
connect(fmuZonCor.QCon_flow,TZonCor.u);
connect(fmuZonSou.QCon_flow,TZonSou.u);
connect(TZonSou.y,fmuZonSou.T);
connect(fmuZonNor.QCon_flow,TZonNor.u);
connect(TZonNor.y,fmuZonNor.T);
end FMUZoneAdapterZones3;