Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples

Test of components

Information

This package contains examples for the use of models that can be found in Buildings.Examples.ChillerPlant.BaseClasses.Controls.

Extends from Modelica.Icons.ExamplesPackage (Icon for packages containing runnable examples).

Package Content

NameDescription
Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ChillerSwitch ChillerSwitch Test model for ChillerSwtich
Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ChillerSetPointControl ChillerSetPointControl Test model for chiller setpoint control using TrimAndResponse and LinearPieceWiseTwo
Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.KMinusU KMinusU Test model for KMinusU
Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.LinearPiecewiseTwo LinearPiecewiseTwo Test model for LinearPiecewiseTwo
Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.RequestCounter RequestCounter Test model for RequestCounter
Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.TrimAndRespond TrimAndRespond Test model for TrimAndRespond
Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.WSEControl WSEControl Test model for WSEControl
Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ZeroOrderHold ZeroOrderHold Test model for ZeroOrderHold


Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ChillerSwitch Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ChillerSwitch

Test model for ChillerSwtich

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ChillerSwitch

Information

Extends from Modelica.Icons.Example (Icon for runnable examples).

Modelica definition

model ChillerSwitch "Test model for ChillerSwtich"
  extends Modelica.Icons.Example;
  Modelica.Blocks.Sources.Sine TSet(
    freqHz=0.0002,
    offset=12,
    amplitude=8);
  Modelica.Blocks.Sources.Sine CHWST(
    freqHz=0.0001,
    amplitude=5,
    offset=15);
  Buildings.Examples.ChillerPlant.BaseClasses.Controls.ChillerSwitch chiSwi(
      deaBan(displayUnit="K") = 3);
equation 
  connect(TSet.y, chiSwi.TSet);
  connect(CHWST.y, chiSwi.chiCHWST);
end ChillerSwitch;

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ChillerSetPointControl Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ChillerSetPointControl

Test model for chiller setpoint control using TrimAndResponse and LinearPieceWiseTwo

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ChillerSetPointControl

Information

Extends from Modelica.Icons.Example (Icon for runnable examples).

Parameters

TypeNameDefaultDescription
MassFlowRatemAir_flow_nominal61.6*2Nominal mass flow rate at fan [kg/s]
RealCOPc_nominal3Chiller COP
MassFlowRatemCHW_flow_nominal15.2Nominal mass flow rate at chilled water [kg/s]
MassFlowRatemCW_flow_nominalmCHW_flow_nominal/COPc_nomin...Nominal mass flow rate at condenser water [kg/s]
RealQRoo100 

Modelica definition

model ChillerSetPointControl 
  "Test model for chiller setpoint control using TrimAndResponse and LinearPieceWiseTwo"
  extends Modelica.Icons.Example;
  package Medium1 = Buildings.Media.ConstantPropertyLiquidWater;
  package Medium2 = Buildings.Media.ConstantPropertyLiquidWater;
  package MediumAir = Buildings.Media.GasesPTDecoupled.SimpleAir "Medium model";
  parameter Modelica.SIunits.MassFlowRate mAir_flow_nominal=61.6*2 
    "Nominal mass flow rate at fan";
  parameter Real COPc_nominal=3 "Chiller COP";
  parameter Modelica.SIunits.MassFlowRate mCHW_flow_nominal=15.2 
    "Nominal mass flow rate at chilled water";
  parameter Modelica.SIunits.MassFlowRate mCW_flow_nominal=mCHW_flow_nominal/
      COPc_nominal*(COPc_nominal + 1) 
    "Nominal mass flow rate at condenser water";
  parameter Real QRoo=100;
  Buildings.Examples.ChillerPlant.BaseClasses.Controls.TrimAndRespond triAndRes(
    yEqu0=0.1,
    yMax=1,
    yMin=0,
    nActDec=0,
    nActInc=1,
    n=1,
    uTri=0.8,
    tSam=120,
    yDec=-0.03,
    yInc=0.03);
  Buildings.Examples.ChillerPlant.BaseClasses.Controls.LinearPiecewiseTwo
    linPieTwo(
    x0=0,
    x2=1,
    y20=273.15 + 12.78,
    y21=273.15 + 7.22,
    x1=0.5,
    y10=0.1,
    y11=1);
  Buildings.Fluid.Chillers.ElectricEIR chi(
    dp1_nominal=6000,
    redeclare package Medium1 = Medium1,
    redeclare package Medium2 = Medium2,
    m1_flow_nominal=mCW_flow_nominal,
    m2_flow_nominal=mCHW_flow_nominal,
    dp2_nominal=3000,
    per=Buildings.Fluid.Chillers.Data.ElectricEIR.ElectricEIRChiller_York_YK_1881kW_6_53COP_Vanes(),
    m1_flow(fixed=true, start=mCW_flow_nominal),
    m2_flow(fixed=true, start=mCHW_flow_nominal),
    energyDynamics=Modelica.Fluid.Types.Dynamics.DynamicFreeInitial,
    massDynamics=Modelica.Fluid.Types.Dynamics.DynamicFreeInitial);

  Buildings.Fluid.HeatExchangers.ConstantEffectiveness coi(
    redeclare package Medium1 = Medium2,
    m1_flow_nominal=mCHW_flow_nominal,
    dp1_nominal=3000,
    dp2_nominal=3000,
    redeclare package Medium2 = MediumAir,
    m2_flow_nominal=mAir_flow_nominal,
    eps=1.0);
  Buildings.Fluid.Sources.FixedBoundary sin1(redeclare package Medium = Medium1,
      nPorts=1);
  Buildings.Fluid.Sources.MassFlowSource_T sou1(
    redeclare package Medium = Medium1,
    nPorts=1,
    use_T_in=false,
    m_flow=mCW_flow_nominal,
    T=283.15);
  inner Modelica.Fluid.System system;
  Modelica.Blocks.Sources.Constant const(k=273.15 + 20);
  Buildings.Controls.Continuous.LimPID limPID(
    reverseAction=true,
    y_start=1,
    yMin=0,
    k=10,
    Ti=0.01,
    Td=10);
  Buildings.Fluid.Sensors.TemperatureTwoPort TRet(
    redeclare package Medium = MediumAir,
    m_flow_nominal=999);
  Buildings.Fluid.Movers.FlowMachine_m_flow pum(
    m_flow_nominal=1.2*mCHW_flow_nominal,
    dp(start=40474),
    redeclare package Medium = Medium2) "Chilled water pump";
  Buildings.Fluid.Storage.ExpansionVessel expVesChi(VTot=1, redeclare package
      Medium = Medium2);
  Modelica.Blocks.Sources.BooleanConstant booleanConstant1(k=true);
  Modelica.Blocks.Math.Gain gain(k=mCHW_flow_nominal);
  Buildings.Fluid.Sources.MassFlowSource_T sou2(
    use_T_in=true,
    redeclare package Medium = MediumAir,
    m_flow=mAir_flow_nominal,
    T=291.15,
    nPorts=1);
  Buildings.Fluid.Sources.FixedBoundary sin2(redeclare package Medium =
        MediumAir, nPorts=1);
  Modelica.Blocks.Sources.Sine sine(
    amplitude=5,
    offset=273.15 + 25,
    freqHz=1/20000);
  Modelica.Blocks.Continuous.FirstOrder firstOrder(T=pum.tau/2);
  Modelica.Blocks.Continuous.FirstOrder firstOrder1(y_start=273.15 + 10, T=chi.tau1
        /2);
  Buildings.Fluid.Sensors.TemperatureTwoPort TSup(
    redeclare package Medium = MediumAir,
    m_flow_nominal=999);
equation 
  connect(sou1.ports[1], chi.port_a1);
  connect(coi.port_a1, chi.port_b2);
  connect(TRet.T, limPID.u_m);
  connect(chi.port_a2, pum.port_b);
  connect(pum.port_a, coi.port_b1);
  connect(chi.port_a2, expVesChi.port_a);
  connect(booleanConstant1.y, chi.on);
  connect(gain.y, pum.m_flow_in);
  connect(sou2.T_in, sine.y);
  connect(chi.port_b1, sin1.ports[1]);
  connect(triAndRes.y, linPieTwo.u);
  connect(limPID.y, triAndRes.u[1]);
  connect(const.y, limPID.u_s);
  connect(firstOrder.y, gain.u);
  connect(linPieTwo.y[1], firstOrder.u);
  connect(TRet.port_b, coi.port_b2);
  connect(TRet.port_a, sin2.ports[1]);
  connect(linPieTwo.y[2], firstOrder1.u);
  connect(firstOrder1.y, chi.TSet);
  connect(coi.port_a2, TSup.port_a);
  connect(TSup.port_b, sou2.ports[1]);
  connect(booleanConstant1.y, triAndRes.sta);
end ChillerSetPointControl;

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.KMinusU Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.KMinusU

Test model for KMinusU

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.KMinusU

Information

Extends from Modelica.Icons.Example (Icon for runnable examples).

Modelica definition

model KMinusU "Test model for KMinusU"
  extends Modelica.Icons.Example;
  Modelica.Blocks.Sources.Sine pulse(
    freqHz=0.001,
    amplitude=0.5,
    offset=0.5,
    phase=-1.5707963267949);
  Buildings.Examples.ChillerPlant.BaseClasses.Controls.KMinusU kMinU(k=1);
equation 
  connect(pulse.y, kMinU.u);
end KMinusU;

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.LinearPiecewiseTwo Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.LinearPiecewiseTwo

Test model for LinearPiecewiseTwo

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.LinearPiecewiseTwo

Information

Extends from Modelica.Icons.Example (Icon for runnable examples).

Modelica definition

model LinearPiecewiseTwo "Test model for LinearPiecewiseTwo"
  extends Modelica.Icons.Example;
  Modelica.Blocks.Sources.Sine pulse(
    freqHz=0.001,
    amplitude=0.5,
    offset=0.5,
    phase=-1.5707963267949);
  Buildings.Examples.ChillerPlant.BaseClasses.Controls.LinearPiecewiseTwo
    linPieTwo(
    x0=0,
    x1=0.5,
    x2=1,
    y10=5,
    y11=15,
    y20=55,
    y21=42);
equation 
  connect(pulse.y, linPieTwo.u);
end LinearPiecewiseTwo;

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.RequestCounter Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.RequestCounter

Test model for RequestCounter

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.RequestCounter

Information

Extends from Modelica.Icons.Example (Icon for runnable examples).

Modelica definition

model RequestCounter "Test model for RequestCounter"
  extends Modelica.Icons.Example;
  Buildings.Examples.ChillerPlant.BaseClasses.Controls.RequestCounter reqCou(
      nAct=3, uTri=0.8);
  Modelica.Blocks.Sources.Constant act3(k=0.95);
  Modelica.Blocks.Sources.Pulse act1(period=10);
  Modelica.Blocks.Sources.Sine act2(freqHz=0.3, offset=1);
equation 
  connect(act1.y, reqCou.uAct[1]);
  connect(act2.y, reqCou.uAct[2]);
  connect(act3.y, reqCou.uAct[3]);
end RequestCounter;

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.TrimAndRespond Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.TrimAndRespond

Test model for TrimAndRespond

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.TrimAndRespond

Information

Extends from Modelica.Icons.Example (Icon for runnable examples).

Modelica definition

model TrimAndRespond "Test model for TrimAndRespond"
  extends Modelica.Icons.Example;

  Modelica.Blocks.Sources.Sine act3(freqHz=0.002, offset=0.2);
  Modelica.Blocks.Sources.Pulse act1(period=500);
  Modelica.Blocks.Sources.Sine act2(freqHz=0.001, offset=0.3);
  Buildings.Examples.ChillerPlant.BaseClasses.Controls.TrimAndRespond triAndRes(
    n=3,
    uTri=0.9,
    yEqu0=0.1,
    yMax=1,
    yMin=0,
    nActDec=0,
    nActInc=1,
    yDec=-0.01,
    yInc=0.02,
    tSam=20);
  Modelica.Blocks.Sources.BooleanPulse equSta(width=50, period=5000);
equation 
  connect(act1.y, triAndRes.u[1]);
  connect(act2.y, triAndRes.u[2]);
  connect(act3.y, triAndRes.u[3]);
  connect(triAndRes.sta, equSta.y);
end TrimAndRespond;

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.WSEControl Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.WSEControl

Test model for WSEControl

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.WSEControl

Information

Extends from Modelica.Icons.Example (Icon for runnable examples).

Modelica definition

model WSEControl "Test model for WSEControl"
  extends Modelica.Icons.Example;
  Modelica.Blocks.Sources.Pulse wseCHWST(
    period=300,
    amplitude=15,
    offset=273.15 + 5) "WSE chilled water supply temperature";
  Modelica.Blocks.Sources.Constant wseCWST(k=273.15 + 10) 
    "WSE condenser water supply temperature";
  Buildings.Examples.ChillerPlant.BaseClasses.Controls.WSEControl wseCon;
  Modelica.Blocks.Sources.Constant TWetBub(k=273.15 + 5) "Wet bulb temperature";
  Modelica.Blocks.Sources.Constant TTowApp(k=5) "Cooling tower approach";
equation 
  connect(TWetBub.y, wseCon.TWetBul);
  connect(TTowApp.y, wseCon.towTApp);
  connect(wseCHWST.y, wseCon.wseCHWST);
  connect(wseCWST.y, wseCon.wseCWST);
end WSEControl;

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ZeroOrderHold Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ZeroOrderHold

Test model for ZeroOrderHold

Buildings.Examples.ChillerPlant.BaseClasses.Controls.Examples.ZeroOrderHold

Information

Extends from Modelica.Icons.Example (Icon for runnable examples).

Modelica definition

model ZeroOrderHold "Test model for ZeroOrderHold"
  extends Modelica.Icons.Example;
  Buildings.Examples.ChillerPlant.BaseClasses.Controls.ZeroOrderHold zeoOrdHol(
      samplePeriod=50);
  Modelica.Blocks.Sources.BooleanPulse booPul(period=200);
equation 
  connect(booPul.y, zeoOrdHol.u);
end ZeroOrderHold;

Automatically generated Thu Dec 8 16:37:16 2011.