This package contains base classes that are used to construct the models in Buildings.Examples.VAVCO2.
Extends from Modelica.Icons.BasesPackage (Icon for packages containing base classes).
Name | Description |
---|---|
DamperControl | Local loop controller for damper |
Occupancy | Model for occupancy |
RoomLeakage | Room leakage model |
RoomVAV | Model for CO2 emitted by people |
Suite | Model of a suite consisting of five rooms of the MIT system model |
Type | Name | Default | Description |
---|---|---|---|
Real | CO2Set | 700E-6 | CO2 set point in volume fraction |
Real | Kp | 10 | Proportional gain |
Type | Name | Description |
---|---|---|
input RealInput | u | Connector of Real input signal |
output RealOutput | y | Connector of Real output signal |
block DamperControl "Local loop controller for damper" extends Modelica.Blocks.Interfaces.SISO; parameter Real CO2Set = 700E-6 "CO2 set point in volume fraction"; parameter Real Kp = 10 "Proportional gain";protected Modelica.Blocks.Sources.Constant xSetNor(k=1) "CO2 set point (normalized)"; public Buildings.Controls.Continuous.LimPID con( yMin=0, y_start=0.5, Ti=1, controllerType=Modelica.Blocks.Types.SimpleController.P, k=Kp, limiter(u(start=0.75)), yMax=1, reverseAction=true, Td=60); protected Modelica.Blocks.Math.Gain gain1(k=1/CO2Set) "Gain. Division by CO2Set is to normalize the control error"; equationconnect(con.y, y); connect(xSetNor.y, con.u_s); connect(gain1.y, con.u_m); connect(u, gain1.u); end DamperControl;
Type | Name | Description |
---|---|---|
output RealOutput | y1[2] | Connector of Real output signals |
output RealOutput | y2[2] | Connector of Real output signals |
output RealOutput | y3[2] | Connector of Real output signals |
model Occupancy "Model for occupancy"Modelica.Blocks.Sources.CombiTimeTable office1( extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableOnFile=false, table=[0.0,0.0; 8*3600,0; 8*3600,2; 9*3600,2; 9*3600,3; 12*3600,3; 12*3600, 2; 13*3600,2; 13*3600,6; 15*3600,6; 15*3600,3; 16*3600,3; 16*3600,4; 18*3600,4; 18*3600,0; 24*3600,0]) "Office with double occupancy"; Modelica.Blocks.Sources.CombiTimeTable office2( extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableOnFile=false, table=[0.0,0.0; 8*3600,0; 8*3600,2; 9*3600,2; 9*3600,3; 12*3600,3; 12*3600, 2; 13*3600,2; 13*3600,5; 15*3600,5; 15*3600,3; 16*3600,3; 16*3600,6; 18*3600,6; 18*3600,0; 24*3600,0]) "Office with double occupancy"; Modelica.Blocks.Sources.CombiTimeTable cla1( extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableOnFile=false, table=[0.0,0.0; 8*3600,0; 8*3600,25; 9*3600,25; 9*3600,20; 10*3600,20; 10*3600,30; 12*3600,30; 12*3600, 0; 13*3600,0; 13*3600,30; 15*3600,30; 15*3600,40; 16*3600,40; 16*3600,20; 18*3600,20; 18*3600,0; 24*3600,0]) "Class room"; Modelica.Blocks.Sources.CombiTimeTable cla2( extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableOnFile=false, table=[0.0,0.0; 8*3600,0; 8*3600,20; 9*3600,20; 9*3600,10; 10*3600,10; 10*3600,20; 11*3600,20; 11*3600,15; 12*3600,15; 12*3600, 0; 13*3600,0; 13*3600,30; 15*3600,30; 15*3600,20; 16*3600,20; 16*3600,25; 18*3600,25; 18*3600,0; 24*3600,0]) "Class room"; Modelica.Blocks.Sources.CombiTimeTable smaRoo1( extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableOnFile=false, table=[0.0,0.0; 8*3600,0; 8*3600,0.4; 9*3600,0.4; 9*3600,1; 10*3600,1; 10*3600,0.4; 12*3600,0.4; 12*3600,1; 13*3600,1; 13*3600,0.5; 14*3600,0.5; 14*3600,1.0; 16*3600,1.0; 16*3600,0.5; 18*3600,0.5; 18*3600,0; 24*3600,0]) "Small rooms"; Modelica.Blocks.Sources.CombiTimeTable smaRoo2( extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableOnFile=false, table=[0.0,0.0; 8*3600,0; 8*3600,0.4; 9*3600,0.4; 9*3600,1; 10*3600,1; 10*3600,0.4; 12*3600,0.4; 12*3600,1; 13*3600,1; 13*3600,0.3; 14*3600,0.3; 14*3600,0.4; 16*3600,0.4; 16*3600,0.2; 18*3600,0.2; 18*3600,0; 24*3600,0]) "Small rooms"; Modelica.Blocks.Interfaces.RealOutput y1[2] "Connector of Real output signals"; Modelica.Blocks.Interfaces.RealOutput y2[2] "Connector of Real output signals"; Modelica.Blocks.Interfaces.RealOutput y3[2] "Connector of Real output signals"; Modelica.Blocks.Math.Gain sca1(k=2) "Scaling for occupancy"; Modelica.Blocks.Math.Gain sca2(k=3) "Scaling for occupancy"; Modelica.Blocks.Math.Gain sca3(k=3) "Scaling for occupancy"; Modelica.Blocks.Math.Gain sca4(k=2) "Scaling for occupancy"; Modelica.Blocks.Math.Gain sca5(k=3) "Scaling for occupancy"; Modelica.Blocks.Math.Gain sca6(k=3) "Scaling for occupancy"; equationconnect(cla1.y[1], sca1.u); connect(cla2.y[1], sca4.u); connect(office1.y[1], sca2.u); connect(office2.y[1], sca5.u); connect(smaRoo1.y[1], sca3.u); connect(smaRoo2.y[1], sca6.u); connect(sca1.y, y1[1]); connect(sca4.y, y1[2]); connect(sca2.y, y2[1]); connect(sca5.y, y2[2]); connect(sca3.y, y3[1]); connect(sca6.y, y3[2]); end Occupancy;
Room leakage used in the MIT system model.
Extends from Buildings.BaseClasses.BaseIcon (Base icon).
Type | Name | Description |
---|---|---|
input RealInput | p | Pressure |
FluidPort_b | port_b |
model RoomLeakage "Room leakage model" extends Buildings.BaseClasses.BaseIcon; replaceable package Medium = Modelica.Media.Interfaces.PartialMedium "Medium in the component";Buildings.Fluid.FixedResistances.FixedResistanceDpM res( m_flow_nominal=1, redeclare package Medium = Medium, dp_nominal=1000) "Resistance model"; Modelica.Blocks.Interfaces.RealInput p "Pressure"; Modelica.Fluid.Interfaces.FluidPort_b port_b(redeclare package Medium = Medium); Buildings.Fluid.Sources.Boundary_pT amb( redeclare package Medium = Medium, nPorts=1, use_p_in=true, p=101325, T=293.15); equationconnect(res.port_b, port_b); connect(p, amb.p_in); connect(amb.ports[1], res.port_a); end RoomLeakage;
Type | Name | Default | Description |
---|---|---|---|
replaceable package Medium | Modelica.Media.Interfaces.Pa... | Medium in the component | |
replaceable model MotorModel | Buildings.Fluid.Actuators.Mo... | ||
Volume | VRoo | Volume of room [m3] | |
Volume | VPle | Volume of plenum [m3] | |
Area | ADam | Damper face area [m2] | |
MassFlowRate | m_flow_nominal | Nominal mass flow rate [kg/s] |
Type | Name | Description |
---|---|---|
replaceable package Medium | Medium in the component | |
replaceable model MotorModel | ||
FluidPort_a | portRoo1 | Fluid port |
FluidPort_a | portSup | Fluid port |
FluidPort_a | portRet | Fluid port |
FluidPort_a | portRoo2 | Fluid port |
output RealOutput | yDam | Damper control signal |
input RealInput | nPeo | Number of people |
model RoomVAV "Model for CO2 emitted by people" replaceable package Medium = Modelica.Media.Interfaces.PartialMedium "Medium in the component"; replaceable model MotorModel = Buildings.Fluid.Actuators.Motors.IdealMotor(delta=0.02, tOpe=60);Fluid.Actuators.Dampers.VAVBoxExponential vav( redeclare package Medium = Medium, A=ADam, m_flow_nominal=m_flow_nominal, dp_nominal=1E2, allowFlowReversal=false, from_dp=false); Buildings.Fluid.MixingVolumes.MixingVolume vol( redeclare package Medium = Medium, V=VRoo, nPorts=6, m_flow_nominal=m_flow_nominal, energyDynamics=Modelica.Fluid.Types.Dynamics.FixedInitial) "Room volume"; Buildings.Fluid.Sensors.TraceSubstances senCO2( redeclare package Medium = Medium) "Sensor at volume"; Buildings.Fluid.Sources.PrescribedExtraPropertyFlowRate sou(redeclare package Medium = Medium, use_m_flow_in=true, nPorts=1) "CO2 source"; parameter Modelica.SIunits.Volume VRoo "Volume of room";Buildings.Fluid.MixingVolumes.MixingVolume ple( redeclare package Medium = Medium, V=VPle, nPorts=2, m_flow_nominal=m_flow_nominal, energyDynamics=Modelica.Fluid.Types.Dynamics.FixedInitial) "Plenum volume"; parameter Modelica.SIunits.Volume VPle "Volume of plenum";Modelica.Fluid.Interfaces.FluidPort_a portRoo1(redeclare package Medium = Medium) "Fluid port"; Modelica.Fluid.Interfaces.FluidPort_a portSup(redeclare package Medium = Medium) "Fluid port"; Modelica.Fluid.Interfaces.FluidPort_a portRet(redeclare package Medium = Medium) "Fluid port"; Modelica.Fluid.Interfaces.FluidPort_a portRoo2(redeclare package Medium = Medium) "Fluid port"; Modelica.Blocks.Interfaces.RealOutput yDam "Damper control signal"; parameter Modelica.SIunits.Area ADam "Damper face area"; parameter Modelica.SIunits.MassFlowRate m_flow_nominal "Nominal mass flow rate";Modelica.Blocks.Interfaces.RealInput nPeo "Number of people"; Modelica.Blocks.Math.Gain gaiCO2(k=8.18E-6) "CO2 emission per person"; Fluid.Sensors.Conversions.To_VolumeFraction volFraCO2( MMMea=Modelica.Media. IdealGases.Common.SingleGasesData.CO2.MM) "CO2 volume fraction"; DamperControl con "Damper controller"; Modelica.Blocks.Math.Gain peoDen(k=2.5/VRoo) "People density per m2"; //res(dp_nominal=5, m_flow_nominal=1.2/3600))Modelica.Blocks.Sources.RealExpression vavACH(y=vav.m_flow*3600/VRoo/1.2) "VAV box air change per hour"; Fluid.FixedResistances.FixedResistanceDpM dpPle( redeclare package Medium = Medium, m_flow_nominal=m_flow_nominal, dp_nominal=20, from_dp=true, allowFlowReversal=false); equationconnect(gaiCO2.y, sou.m_flow_in); connect(senCO2.C, volFraCO2.m); connect(volFraCO2.V, con.u); connect(con.y, yDam); connect(con.y, vav.y); connect(ple.ports[1], portRet); connect(nPeo, gaiCO2.u); connect(nPeo, peoDen.u); connect(portSup, vav.port_a); connect(portRoo1, vol.ports[1]); connect(vav.port_b, vol.ports[2]); connect(senCO2.port, vol.ports[3]); connect(portRoo2, vol.ports[4]); connect(sou.ports[1], vol.ports[5]); connect(dpPle.port_a, vol.ports[6]); connect(dpPle.port_b, ple.ports[2]); end RoomVAV;
Model of a suite consisting of five rooms for the MIT system model.
Type | Name | Default | Description |
---|---|---|---|
replaceable package Medium | Modelica.Media.Interfaces.Pa... | Medium in the component | |
Real | scaM_flow | Scaling factor for mass flow rate | |
MassFlowRate | m0Tot_flow | scaM_flow*(5.196 + 2.8428 + ... | [kg/s] |
Type | Name | Description |
---|---|---|
replaceable package Medium | Medium in the component | |
input RealInput | p | Pressure |
FluidPort_b | port_aSup | |
FluidPort_b | port_bExh | |
output RealOutput | p_rel | Relative pressure signal |
output RealOutput | yDam[6] | VAV damper positions |
output RealOutput | dPRoo | Room pressurization |
model Suite "Model of a suite consisting of five rooms of the MIT system model" replaceable package Medium = Modelica.Media.Interfaces.PartialMedium "Medium in the component";Modelica.Blocks.Interfaces.RealInput p "Pressure"; Modelica.Fluid.Interfaces.FluidPort_b port_aSup(redeclare package Medium = Medium); parameter Real scaM_flow "Scaling factor for mass flow rate"; parameter Modelica.SIunits.MassFlowRate m0Tot_flow= scaM_flow*(5.196+2.8428+1.0044+0.9612+0.3624+0.1584);Buildings.Fluid.FixedResistances.SplitterFixedResistanceDpM spl34( redeclare package Medium = Medium, m_flow_nominal=scaM_flow*{1,-1,-1}, dp_nominal={0.176,-0.844,-0.0662}); Buildings.Fluid.FixedResistances.SplitterFixedResistanceDpM mix55( redeclare package Medium = Medium, m_flow_nominal=scaM_flow*{-1,1,1}, dp_nominal=1E3*{-0.263200E-02,0.999990E-03,0.649000E-03}); Buildings.Fluid.FixedResistances.FixedResistanceDpM res13( m_flow_nominal=scaM_flow*1, dp_nominal=0.1E3, redeclare package Medium = Medium); Buildings.Fluid.FixedResistances.FixedResistanceDpM res14( m_flow_nominal=scaM_flow*1, dp_nominal=0.1E3, redeclare package Medium = Medium); Buildings.Fluid.FixedResistances.FixedResistanceDpM res15( m_flow_nominal=scaM_flow*1, dp_nominal=0.1E3, redeclare package Medium = Medium); Buildings.Fluid.FixedResistances.FixedResistanceDpM res16( m_flow_nominal=scaM_flow*1, dp_nominal=0.1E3, redeclare package Medium = Medium); Buildings.Fluid.FixedResistances.FixedResistanceDpM res17( m_flow_nominal=scaM_flow*1, dp_nominal=0.1E3, redeclare package Medium = Medium); Buildings.Fluid.FixedResistances.SplitterFixedResistanceDpM spl35( redeclare package Medium = Medium, m_flow_nominal=scaM_flow*{1,-1,-1}, dp_nominal=1E3*{0.371000E-04,-0.259000E-02,-0.131000E-02}); Buildings.Fluid.FixedResistances.SplitterFixedResistanceDpM spl36( redeclare package Medium = Medium, m_flow_nominal=scaM_flow*{1,-1,-1}, dp_nominal=1E3*{0.211000E-03,-0.128000E-01,-0.223000E-02}); Buildings.Fluid.FixedResistances.SplitterFixedResistanceDpM spl37( redeclare package Medium = Medium, m_flow_nominal=scaM_flow*{1,-1,-1}, dp_nominal=1E3*{0.730000E-03,-0.128000E-01,-0.938000E-02}); Buildings.Fluid.FixedResistances.SplitterFixedResistanceDpM spl38( redeclare package Medium = Medium, m_flow_nominal=scaM_flow*{1,-1,-1}, dp_nominal=1E3*{0.731000E-02,-0.895000E-01,-0.942000E-01}); Buildings.Fluid.FixedResistances.SplitterFixedResistanceDpM mix54( redeclare package Medium = Medium, m_flow_nominal=scaM_flow*{-1,1,1}, dp_nominal=1E3*{-0.653000E-02,0.271000E-03,0.402000E-04}); Buildings.Fluid.FixedResistances.SplitterFixedResistanceDpM mix53( redeclare package Medium = Medium, m_flow_nominal=scaM_flow*{-1,1,1}, dp_nominal=1E3*{-0.566000E-01,0.541000E-02,0.749000E-04}); Buildings.Fluid.FixedResistances.SplitterFixedResistanceDpM mix52( redeclare package Medium = Medium, m_flow_nominal=scaM_flow*{-1,1,1}, dp_nominal=1E3*{-0.353960,0.494000E-03,0.922000E-03}); Buildings.Fluid.FixedResistances.SplitterFixedResistanceDpM mix51( redeclare package Medium = Medium, m_flow_nominal=scaM_flow*{-1,1,1}, dp_nominal=1E3*{-0.847600E-01,1.89750,0.150000E-02}); Modelica.Fluid.Interfaces.FluidPort_b port_bExh(redeclare package Medium = Medium); Buildings.Fluid.FixedResistances.FixedResistanceDpM res1( m_flow_nominal=scaM_flow*1, dp_nominal=0.1E3, redeclare package Medium = Medium); RoomVAV roo45( redeclare package Medium = Medium, ADam=scaM_flow*0.49, m_flow_nominal=scaM_flow*5.196, VRoo=1820, VPle=396) "Room model"; RoomVAV roo46( redeclare package Medium = Medium, ADam=scaM_flow*0.245, m_flow_nominal=scaM_flow*2.8428, VRoo=1210, VPle=330) "Room model"; RoomVAV roo47( redeclare package Medium = Medium, ADam=scaM_flow*0.128, m_flow_nominal=scaM_flow*1.0044, VRoo=647, VPle=125) "Room model"; RoomVAV roo48( redeclare package Medium = Medium, ADam=scaM_flow*0.128, m_flow_nominal=scaM_flow*0.9612, VRoo=385, VPle=107) "Room model"; RoomVAV roo49( redeclare package Medium = Medium, ADam=scaM_flow*0.0494, m_flow_nominal=scaM_flow*0.3624, VRoo=48, VPle=13) "Room model"; RoomVAV roo50( redeclare package Medium = Medium, ADam=scaM_flow*0.024, m_flow_nominal=scaM_flow*0.1584, VRoo=155, VPle=43) "Room model"; Occupancy occ "Occupancy"; Buildings.Fluid.Sensors.RelativePressure dpMea( redeclare package Medium = Medium) "Static pressure measurement"; Modelica.Blocks.Interfaces.RealOutput p_rel "Relative pressure signal"; Modelica.Blocks.Interfaces.RealOutput yDam[6] "VAV damper positions"; Buildings.Fluid.Sensors.Pressure pRoo(redeclare package Medium = Medium) "Room pressure"; Modelica.Blocks.Math.Feedback feeBac; Modelica.Blocks.Interfaces.RealOutput dPRoo "Room pressurization"; equationconnect(spl38.port_2, roo50.portSup); connect(port_aSup, spl34.port_1); connect(spl34.port_2, spl35.port_1); connect(spl35.port_2, spl36.port_1); connect(spl36.port_2, spl37.port_1); connect(spl37.port_2, spl38.port_1); connect(dpMea.port_a, spl38.port_1); connect(pRoo.p, feeBac.u2); connect(roo50.portRoo2, pRoo.port); connect(spl34.port_3, roo45.portSup); connect(spl35.port_3, roo46.portSup); connect(spl36.port_3, roo47.portSup); connect(spl37.port_3, roo48.portSup); connect(spl38.port_3, roo49.portSup); connect(dpMea.port_b, res16.port_b); connect(p, feeBac.u1); connect(dPRoo, feeBac.y); connect(dpMea.p_rel, p_rel); connect(roo45.yDam, yDam[1]); connect(roo46.yDam, yDam[2]); connect(roo47.yDam, yDam[3]); connect(roo48.yDam, yDam[4]); connect(roo49.yDam, yDam[5]); connect(roo50.yDam, yDam[6]); connect(occ.y1[1], roo45.nPeo); connect(occ.y1[2], roo46.nPeo); connect(occ.y2[1], roo47.nPeo); connect(occ.y2[2], roo48.nPeo); connect(occ.y3[1], roo49.nPeo); connect(occ.y3[2], roo50.nPeo); connect(port_bExh, mix55.port_1); connect(mix55.port_2, mix54.port_1); connect(mix54.port_2, mix53.port_1); connect(mix53.port_2, mix52.port_1); connect(mix52.port_2, mix51.port_1); connect(mix51.port_2, roo50.portRet); connect(roo48.portRet, mix51.port_3); connect(mix52.port_3, roo49.portRet); connect(roo47.portRet, mix53.port_3); connect(roo46.portRet, mix54.port_3); connect(roo45.portRet, mix55.port_3); connect(res1.port_b, roo45.portRoo1); connect(roo45.portRoo2, res13.port_a); connect(res13.port_b, roo46.portRoo1); connect(roo46.portRoo2, res14.port_a); connect(res14.port_b, roo47.portRoo1); connect(roo47.portRoo2, res15.port_a); connect(res15.port_b, roo48.portRoo1); connect(roo48.portRoo2, res16.port_a); connect(res16.port_b, roo49.portRoo1); connect(roo49.portRoo2, res17.port_a); connect(res17.port_b, roo50.portRoo1); connect(roo50.portRoo2, res1.port_a); end Suite;