Buildings.Rooms.Examples

Information

This package contains examples for the use of models that can be found in Buildings.Rooms.

Package Content

Name	Description
MixedAirFreeResponse	Free response of room model
BESTEST	BESTEST validation models
TestConditionalConstructions	Package that tests if constructions can be conditionally removed

Buildings.Rooms.Examples.MixedAirFreeResponse

Information

Parameters

Type	Name	Default	Description
Insulation100Concrete200	matLayExt		Construction material for exterior walls
Brick120	matLayPar		Construction material for partition walls
Generic	matLayRoo		Construction material for roof
Generic	matLayFlo		Construction material for floor
DoubleClearAir13Clear	glaSys		Data record for the glazing system
Integer	nConExtWin	1	Number of constructions with a window
Integer	nConBou	1	Number of surface that are connected to constructions that are modeled inside the room
Integer	nSurBou	1	Number of surface that are connected to the room air volume

Modelica definition

model MixedAirFreeResponse "Free response of room model"
  extends Modelica.Icons.Example;
  package MediumA = Buildings.Media.GasesConstantDensity.MoistAirUnsaturated 
    "Medium model";

  inner Modelica.Fluid.System system;

  parameter Buildings.HeatTransfer.Data.OpaqueConstructions.Insulation100Concrete200
    matLayExt "Construction material for exterior walls";

  parameter Buildings.HeatTransfer.Data.OpaqueConstructions.Brick120 matLayPar 
    "Construction material for partition walls";

  parameter Buildings.HeatTransfer.Data.OpaqueConstructions.Generic matLayRoo(
        material={
          HeatTransfer.Data.Solids.InsulationBoard(x=0.2),
          HeatTransfer.Data.Solids.Concrete(x=0.2)},
        final nLay=2) "Construction material for roof";

  parameter Buildings.HeatTransfer.Data.OpaqueConstructions.Generic matLayFlo(
        material={
          HeatTransfer.Data.Solids.Concrete(x=0.2),
          HeatTransfer.Data.Solids.InsulationBoard(x=0.15),
          HeatTransfer.Data.Solids.Concrete(x=0.05)},
        final nLay=3) "Construction material for floor";

  parameter Buildings.HeatTransfer.Data.GlazingSystems.DoubleClearAir13Clear glaSys(
    UFra=2,
    shade=Buildings.HeatTransfer.Data.Shades.Gray(),
    haveInteriorShade=false,
    haveExteriorShade=false) "Data record for the glazing system";

  parameter Integer nConExtWin = 1 "Number of constructions with a window";
  parameter Integer nConBou = 1 
    "Number of surface that are connected to constructions that are modeled inside the room";
  parameter Integer nSurBou = 1 
    "Number of surface that are connected to the room air volume";

  Buildings.Rooms.MixedAir roo(
    redeclare package Medium = MediumA,
    AFlo=6*4,
    hRoo=2.7,
    nConExt=2,
    datConExt(layers={matLayRoo, matLayExt},
           A={6*4, 6*3},
           til={Buildings.HeatTransfer.Types.Tilt.Ceiling, Buildings.HeatTransfer.Types.Tilt.Wall},
           azi={Buildings.HeatTransfer.Types.Azimuth.S, Buildings.HeatTransfer.Types.Azimuth.W}),
    nConExtWin=nConExtWin,
    datConExtWin(
              layers={matLayExt},
              each A=4*3,
              glaSys={glaSys},
              each hWin=2,
              each wWin=4,
              ove(wR={0},wL={0}, gap={0.1}, dep={1}),
              each fFra=0.1,
              each til=Buildings.HeatTransfer.Types.Tilt.Wall,
              azi={Buildings.HeatTransfer.Types.Azimuth.S}),
    nConPar=1,
    datConPar(layers={matLayPar}, each A=10,
           each til=Buildings.HeatTransfer.Types.Tilt.Wall),
    nConBou=1,
    datConBou(layers={matLayFlo}, each A=6*4,
           each til=Buildings.HeatTransfer.Types.Tilt.Floor),
    nSurBou=1,
    surBou(each A=6*3,
           each absIR=0.9,
           each absSol=0.9,
           each til=Buildings.HeatTransfer.Types.Tilt.Wall),
    linearizeRadiation = false,
    nPorts=1,
    energyDynamics=Modelica.Fluid.Types.Dynamics.FixedInitial,
    lat=0.73268921998722) "Room model";

  Modelica.Blocks.Sources.Constant qConGai_flow(k=0) "Convective heat gain";
  Modelica.Blocks.Sources.Constant qRadGai_flow(k=0) "Radiative heat gain";
  Modelica.Blocks.Routing.Multiplex3 multiplex3_1;
  Modelica.Blocks.Sources.Constant qLatGai_flow(k=0) "Latent heat gain";
  Buildings.BoundaryConditions.WeatherData.ReaderTMY3 weaDat(
    filNam="modelica://Buildings/Resources/weatherdata/USA_IL_Chicago-OHare.Intl.AP.725300_TMY3.mos");
  Modelica.Blocks.Sources.Constant uSha(k=0) 
    "Control signal for the shading device";
  Modelica.Blocks.Routing.Replicator replicator(nout=max(1,nConExtWin));
  Buildings.HeatTransfer.Sources.FixedTemperature TSoi[nConBou](each T=283.15) 
    "Boundary condition for construction";
  Buildings.HeatTransfer.Sources.FixedTemperature TBou[nSurBou](each T=288.15) 
    "Boundary condition for construction";
  HeatTransfer.Conduction.MultiLayer conOut[nSurBou](
    redeclare Buildings.HeatTransfer.Data.OpaqueConstructions.Brick120 layers,
    each A=6*4) "Construction that is modeled outside of room";

  Fluid.Sources.FixedBoundary boundary(
    nPorts=1,
    redeclare package Medium = MediumA,
    T=293.15) "Boundary condition";
equation 
  connect(qRadGai_flow.y, multiplex3_1.u1[1]);
  connect(qConGai_flow.y, multiplex3_1.u2[1]);

  connect(qLatGai_flow.y, multiplex3_1.u3[1]);
  connect(multiplex3_1.y, roo.qGai_flow);

  connect(weaDat.weaBus, roo.weaBus);
  connect(uSha.y, replicator.u);
  connect(TSoi.port, roo.surf_conBou);
  connect(TBou.port,conOut. port_b);
  connect(roo.surf_surBou, conOut.port_a);
  connect(roo.uSha, replicator.y);
  connect(roo.ports[1], boundary.ports[1]);
end MixedAirFreeResponse;