Buildings.Fluid.HeatExchangers.BaseClasses.Examples

Collection of models that illustrate model use and test models

Information


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

Extends from Buildings.BaseClasses.BaseIconExamples (Icon for Examples packages).

Package Content

NameDescription
Manifold Test model for coil manifold
MassExchange Test model for latent heat exchange


Buildings.Fluid.HeatExchangers.BaseClasses.Examples.Manifold

Test model for coil manifold

Buildings.Fluid.HeatExchangers.BaseClasses.Examples.Manifold

Parameters

TypeNameDefaultDescription
IntegernPipPar3Number of parallel pipes
IntegernPipSeg4Number of pipe segments

Modelica definition

model Manifold "Test model for coil manifold"
 package Medium = Buildings.Media.ConstantPropertyLiquidWater;
 parameter Integer nPipPar = 3 "Number of parallel pipes";
 parameter Integer nPipSeg = 4 "Number of pipe segments";
    Modelica.Blocks.Sources.Constant POut(k=101325);
  Buildings.Fluid.Sources.Boundary_pT sin_1(                       redeclare 
      package Medium = Medium,
    use_p_in=true,
    T=283.15,
    nPorts=2);
  Buildings.Fluid.Sources.Boundary_pT sou_1(
    redeclare package Medium = Medium,
    use_p_in=true,
    use_T_in=true,
    p=101335,
    T=293.15,
    nPorts=2);
    Fluid.FixedResistances.FixedResistanceDpM res_1(
    m_flow_nominal=5,
    redeclare package Medium = Medium,
    dp_nominal=10,
    use_dh=true,
    from_dp=false);
  Buildings.Fluid.Sensors.MassFlowRate[nPipPar] mfr_1(redeclare each package
      Medium = Medium);
  Modelica.Blocks.Sources.Ramp TDb(
    height=1,
    duration=1,
    offset=293.15);
  Modelica.Blocks.Sources.Ramp P(
    duration=1,
    height=40,
    offset=101305);
  Buildings.Fluid.HeatExchangers.BaseClasses.PipeManifoldFixedResistance
    pipFixRes_1(
    redeclare package Medium = Medium,
    nPipPar=nPipPar,
    m_flow_nominal=5,
    dp_nominal=10,
    linearized=false,
    mStart_flow_a=5);
  Buildings.Fluid.HeatExchangers.BaseClasses.PipeManifoldNoResistance
    pipNoRes_1(
      redeclare package Medium = Medium, nPipPar=nPipPar,
    mStart_flow_a=5);
    Fluid.FixedResistances.FixedResistanceDpM res_2(
    m_flow_nominal=5,
    redeclare package Medium = Medium,
    dp_nominal=10,
    use_dh=true,
    from_dp=false);
  Buildings.Fluid.Sensors.MassFlowRate[nPipPar, nPipSeg] mfr_2(redeclare each 
      package Medium = 
               Medium);
  Buildings.Fluid.HeatExchangers.BaseClasses.DuctManifoldFixedResistance
    ducFixRes_2(
    redeclare package Medium = Medium,
    nPipPar=nPipPar,
    nPipSeg=nPipSeg,
    m_flow_nominal=5,
    dp_nominal=10,
    linearized=false,
    mStart_flow_a=5);
  Buildings.Fluid.HeatExchangers.BaseClasses.DuctManifoldNoResistance
    ducNoRes_2(
      redeclare package Medium = Medium,
      nPipPar=nPipPar,
      nPipSeg=nPipSeg,
    mStart_flow_a=5);
  Buildings.Fluid.HeatExchangers.BaseClasses.CoilHeader hea1(
      redeclare package Medium = Medium,
      nPipPar=nPipPar,
    mStart_flow_a=5) "Header for water-side heat exchanger register";
  Buildings.Fluid.HeatExchangers.BaseClasses.CoilHeader hea2(
      redeclare package Medium = Medium,
      nPipPar=nPipPar,
    mStart_flow_a=5) "Header for water-side heat exchanger register";
  inner Modelica.Fluid.System system;
equation 
  connect(POut.y, sin_1.p_in);
  connect(TDb.y, sou_1.T_in);
  connect(P.y, sou_1.p_in);
  connect(res_1.port_a, pipNoRes_1.port_a);
  connect(res_2.port_a,ducNoRes_2. port_a);
  connect(pipFixRes_1.port_b, hea1.port_a);
  connect(hea1.port_b, mfr_1.port_a);
  connect(mfr_1.port_b, hea2.port_a);
  connect(hea2.port_b, pipNoRes_1.port_b);
  connect(ducFixRes_2.port_b, mfr_2.port_a);
  connect(mfr_2.port_b, ducNoRes_2.port_b);
  connect(sou_1.ports[1], pipFixRes_1.port_a);
  connect(sou_1.ports[2], ducFixRes_2.port_a);
  connect(sin_1.ports[1], res_1.port_b);
  connect(sin_1.ports[2], res_2.port_b);
end Manifold;

Buildings.Fluid.HeatExchangers.BaseClasses.Examples.MassExchange

Test model for latent heat exchange

Buildings.Fluid.HeatExchangers.BaseClasses.Examples.MassExchange

Modelica definition

model MassExchange "Test model for latent heat exchange"
   package Medium = Buildings.Media.PerfectGases.MoistAir;
  Buildings.Fluid.HeatExchangers.BaseClasses.MassExchange masExc(redeclare 
      package Medium = 
               Medium) "Model for mass exchange";
  Modelica.Blocks.Sources.Ramp TSur(
    duration=1,
    height=20,
    offset=273.15 + 5) "Surface temperature";
    Modelica.Blocks.Sources.Constant XWat(k=0.01) 
    "Humidity mass fraction in medium";
    Modelica.Blocks.Sources.Constant Gc(k=1) 
    "Sensible convective thermal conductance";
equation 
  connect(TSur.y, masExc.TSur);
  connect(Gc.y, masExc.Gc);
  connect(XWat.y, masExc.XInf);
end MassExchange;

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