Changeset 531

Timestamp:

08/13/2007 08:18:33 AM (17 months ago)

Author:

AHaumer

Message:

improved documentation, removed type TemperatureDifference

Files:

• Modelica/trunk/Modelica/Thermal/FluidHeatFlow.mo (modified) (69 diffs)

Modelica/trunk/Modelica/Thermal/FluidHeatFlow.mo

@@ -2 +2 @@
   "Simple components for 1-dimensional incompressible thermo-fluid flow models" 
   extends Modelica.Icons.Library2;
-  
   annotation (
-    version="1.6.0 Beta", versionDate="2007-01-23",
+    version="1.6.1", versionDate="2007-08-12",
     preferedView="info",Documentation(info="<HTML>
 <p>
@@ -110 +109 @@
   <li> v1.60 2007/01/23 Anton Haumer<br>
        new parameter tapT defining Temperature of heatPort </li>
+  <li> v1.6.1 2007/08/12 Anton Haumer<br>
+       improved documentation<br>
+       removed type TemperatureDifference since this is defined in Modelica.SIunits</li>
   </ul>
 </HTML>
@@ -205 +207 @@
             fillPattern=1))));
     
-    model SimpleCooling 
+    model SimpleCooling "Example: simple cooling circuit" 
       extends Modelica.Icons.Example;
     annotation (Documentation(info="<HTML>
@@ -245 +247 @@
         experimentSetupOutput);
       parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+        "Cooling medium" 
         annotation(choicesAllMatching=true);
       parameter Modelica.SIunits.CelsiusTemperature TAmb=20 
-        "ambient temperature";
+        "Ambient temperature";
       output Modelica.SIunits.TemperatureDifference dTSource=
         PrescribedHeatFlow1.port.T-Modelica.SIunits.Conversions.from_degC(TAmb) 
@@ -307 +310 @@
     end SimpleCooling;
     
-    model ParallelCooling 
+    model ParallelCooling "Example: coolig circuit with parallel branches" 
       extends Modelica.Icons.Example;
     annotation (Documentation(info="<HTML>
@@ -371 +374 @@
         experimentSetupOutput);
       parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+        "Cooling medium" 
         annotation(choicesAllMatching=true);
       parameter Modelica.SIunits.CelsiusTemperature TAmb=20 
-        "ambient temperature";
+        "Ambient temperature";
       output Modelica.SIunits.TemperatureDifference dTSource1=
         PrescribedHeatFlow1.port.T-Modelica.SIunits.Conversions.from_degC(TAmb) 
@@ -476 +480 @@
     end ParallelCooling;
     
-    model IndirectCooling 
+    model IndirectCooling "Example: indirect cooling circuit" 
       extends Modelica.Icons.Example;
     annotation (Documentation(info="<HTML>
@@ -529 +533 @@
         experimentSetupOutput);
       parameter FluidHeatFlow.Media.Medium outerMedium=FluidHeatFlow.Media.Medium() 
+        "Outer medium" 
         annotation(choicesAllMatching=true);
       parameter FluidHeatFlow.Media.Medium innerMedium=FluidHeatFlow.Media.Medium() 
+        "Inner medium" 
         annotation(choicesAllMatching=true);
       parameter Modelica.SIunits.CelsiusTemperature TAmb=20 
-        "ambient temperature";
+        "Ambient temperature";
       output Modelica.SIunits.TemperatureDifference dTSource=
         PrescribedHeatFlow1.port.T-Modelica.SIunits.Conversions.from_degC(TAmb) 
@@ -644 +650 @@
     end IndirectCooling;
     
-    model PumpAndValve 
+    model PumpAndValve "Example: cooling circuit with pump and valve" 
       extends Modelica.Icons.Example;
     annotation (Documentation(info="<HTML>
@@ -668 +674 @@
         experimentSetupOutput);
       parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+        "Cooling medium" 
         annotation(choicesAllMatching=true);
       parameter Modelica.SIunits.CelsiusTemperature TAmb=20 
-        "ambient temperature";
+        "Ambient temperature";
       output Modelica.SIunits.TemperatureDifference dTSource=
         PrescribedHeatFlow1.port.T-Modelica.SIunits.Conversions.from_degC(TAmb) 
@@ -753 +760 @@
     end PumpAndValve;
     
-    model PumpDropOut 
+    model PumpDropOut "Example: cooling circuit with drop out of pump" 
       extends Modelica.Icons.Example;
     annotation (Documentation(info="<HTML>
@@ -768 +775 @@
         experimentSetupOutput);
       parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+        "Cooling medium" 
         annotation(choicesAllMatching=true);
       parameter Modelica.SIunits.CelsiusTemperature TAmb=20 
-        "ambient temperature";
+        "Ambient temperature";
       output Modelica.SIunits.TemperatureDifference dTSource=
         PrescribedHeatFlow1.port.T-Modelica.SIunits.Conversions.from_degC(TAmb) 
@@ -834 +842 @@
     
     model ParallelPumpDropOut 
+      "Example: cooling circuit with parallel branches and drop out of pump" 
       extends Modelica.Icons.Example;
     annotation (Documentation(info="<HTML>
@@ -848 +857 @@
         experimentSetupOutput);
       parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+        "Cooling medium" 
         annotation(choicesAllMatching=true);
       parameter Modelica.SIunits.CelsiusTemperature TAmb=20 
-        "ambient temperature";
+        "Ambient temperature";
       output Modelica.SIunits.TemperatureDifference dTSource1=
         PrescribedHeatFlow1.port.T-Modelica.SIunits.Conversions.from_degC(TAmb) 
@@ -953 +963 @@
     end ParallelPumpDropOut;
     
-    model OneMass 
+    model OneMass "Example: ccoling of one hot mass" 
       extends Modelica.Icons.Example;
     annotation (Documentation(info="<HTML>
@@ -968 +978 @@
         experimentSetupOutput);
       parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+        "Cooling medium" 
         annotation(choicesAllMatching=true);
       parameter Modelica.SIunits.CelsiusTemperature TAmb=20 
-        "ambient temperature";
+        "Ambient temperature";
       parameter Modelica.SIunits.CelsiusTemperature TMass=40 
-        "inital temperature of mass";
+        "Inital temperature of mass";
       output Modelica.SIunits.TemperatureDifference dTMass=
         HeatCapacitor1.port.T-Modelica.SIunits.Conversions.from_degC(TAmb) 
@@ -1012 +1023 @@
       connect(Pipe1.flowPort_b, Ambient2.flowPort) 
         annotation (points=[20,0; 40,0],   style(color=1, rgbcolor={255,0,0}));
-      connect(ThermalConductor1.port_a, HeatCapacitor1.port) annotation (points=[10,-40;
+      connect(ThermalConductor1.port_a, HeatCapacitor1.port) annotation (points=[10,-40; 
             10,-40; 10,-50; 10,-50],        style(color=42, rgbcolor={191,0,0}));
       connect(Pipe1.heatPort, ThermalConductor1.port_b) 
@@ -1020 +1031 @@
     end OneMass;
     
-    model TwoMass 
+    model TwoMass "Example: cooling of two hot masses" 
       extends Modelica.Icons.Example;
     annotation (Documentation(info="<HTML>
@@ -1035 +1046 @@
         experimentSetupOutput);
       parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+        "Cooling medium" 
         annotation(choicesAllMatching=true);
       parameter Modelica.SIunits.CelsiusTemperature TAmb=20 
-        "ambient temperature";
+        "Ambient temperature";
       parameter Modelica.SIunits.CelsiusTemperature TMass1=40 
-        "inital temperature of mass1";
+        "Inital temperature of mass1";
       parameter Modelica.SIunits.CelsiusTemperature TMass2=60 
-        "inital temperature of mass2";
+        "Inital temperature of mass2";
       output Modelica.SIunits.TemperatureDifference dTMass1=
         HeatCapacitor1.port.T-Modelica.SIunits.Conversions.from_degC(TAmb) 
@@ -1112 +1124 @@
       connect(Pipe3.flowPort_b, Ambient2.flowPort) 
         annotation (points=[60,0; 80,0], style(color=1, rgbcolor={255,0,0}));
-      connect(HeatCapacitor2.port, ThermalConductor2.port_a) annotation (points=[10,60;
+      connect(HeatCapacitor2.port, ThermalConductor2.port_a) annotation (points=[10,60; 
             10,55.5; 10,50; 10,50],   style(color=42, rgbcolor={191,0,0}));
       connect(ThermalConductor2.port_b, Pipe2.heatPort) 
@@ -1118 +1130 @@
       connect(Pipe1.heatPort, ThermalConductor1.port_b) annotation (points=[10,-20;
             10,-30],         style(color=42, rgbcolor={191,0,0}));
-      connect(ThermalConductor1.port_a, HeatCapacitor1.port) annotation (points=[10,-50;
+      connect(ThermalConductor1.port_a, HeatCapacitor1.port) annotation (points=[10,-50; 
             10,-50; 10,-60; 10,-60],
                                   style(color=42, rgbcolor={191,0,0}));
@@ -1125 +1137 @@
     end TwoMass;
     
-    package Utilities 
+    package Utilities "Utility models for examples" 
       extends Modelica.Icons.Library;
       annotation (Documentation(info="<html>
@@ -1169 +1181 @@
 </HTML>"));
       
-      model DoubleRamp 
+      model DoubleRamp "Ramp going up and down" 
         extends Modelica.Blocks.Interfaces.SO;
-        parameter Real offset=1 "offset of ramps";
-        parameter Modelica.SIunits.Time startTime=0.2 "startTime of 1st ramp";
+        parameter Real offset=1 "Offset of ramps";
+        parameter Modelica.SIunits.Time startTime=0.2 "StartTime of 1st ramp";
         parameter Modelica.SIunits.Time interval=0.2 
-          "interval between end of 1st and beginning of 2nd ramp";
-        parameter Real height_1=-1 "|1st ramp|Height of ramp";
+          "Interval between end of 1st and beginning of 2nd ramp";
+        parameter Real height_1=-1 "|Ramp 1|Height of ramp";
         parameter Modelica.SIunits.Time duration_1(min=Modelica.Constants.small) = 0.2 
-          "|1st ramp|Duration of ramp";
-        parameter Real height_2=1 "|2nd ramp|Height of ramp";
+          "|Ramp 1|Duration of ramp";
+        parameter Real height_2=1 "|Ramp 2|Height of ramp";
         parameter Modelica.SIunits.Time duration_2(min=Modelica.Constants.small) = 0.2 
-          "|2nd ramp|Duration of ramp";
+          "|Ramp 2|Duration of ramp";
         annotation (
           Documentation(info="<HTML>
@@ -1304 +1316 @@
             fillPattern=1))));
     
-    model IsolatedPipe 
+    model IsolatedPipe "Pipe without heat exchange" 
       
     annotation (Documentation(info="<HTML>
@@ -1325 +1337 @@
       extends Interfaces.Partials.SimpleFriction;
       parameter Modelica.SIunits.Length h_g=0 
-        "geodetic height (heigth difference from flowPort_a to flowPort_b)";
+        "Geodetic height (heigth difference from flowPort_a to flowPort_b)";
     equation 
       // coupling with FrictionModel
@@ -1334 +1346 @@
     end IsolatedPipe;
     
-    model HeatedPipe 
+    model HeatedPipe "Pipe with heat exchange" 
       
     annotation (Documentation(info="<HTML>
@@ -1367 +1379 @@
       extends Interfaces.Partials.SimpleFriction;
       parameter Modelica.SIunits.Length h_g=0 
-        "geodetic height (heigth difference from flowPort_a to flowPort_b)";
+        "Geodetic height (heigth difference from flowPort_a to flowPort_b)";
       Modelica.Thermal.HeatTransfer.Interfaces.HeatPort_a heatPort 
         annotation (extent=[-10,-110; 10,-90]);
@@ -1380 +1392 @@
     end HeatedPipe;
     
-    model Valve 
+    model Valve "Simple valve" 
       
     annotation (Documentation(info="<HTML>
@@ -1417 +1429 @@
       extends Interfaces.Partials.TwoPort(m=0, final tapT=1);
       parameter Boolean LinearCharacteristic=true 
-        "|standard characteristic|type of characteristic" 
+        "|Standard characteristic|Type of characteristic" 
         annotation(choices(choice=true "Linear", choice=false "Exponential"));
       parameter Real y1(min=small)=1 
-        "|standard characteristic|max. valve opening";
+        "|Standard characteristic|Max. valve opening";
       parameter Modelica.SIunits.VolumeFlowRate Kv1(min=small)=1 
-        "|standard characteristic|max. flow @ y = y1";
+        "|Standard characteristic|Max. flow @ y = y1";
       parameter Real kv0(min=small,max=1-small)=0.01 
-        "|standard characteristic|leakage flow / max.flow @ y = 0";
+        "|Standard characteristic|Leakage flow / max.flow @ y = 0";
       parameter Modelica.SIunits.Pressure dp0=1 
-        "|standard characteristic|standard pressure drop";
+        "|Standard characteristic|Standard pressure drop";
       parameter Modelica.SIunits.Density rho0 = 10 
-        "|standard characteristic|standard medium's density";
+        "|Standard characteristic|Standard medium's density";
       parameter Real frictionLoss(min=0, max=1) = 0 
-        "part of friction losses fed to medium";
+        "Part of friction losses fed to medium";
     protected 
       constant Real small = Modelica.Constants.small;
       constant Real eps = Modelica.Constants.eps;
-      Real yLim = max(min(y,y1),0) "limited valve opening";
-      Modelica.SIunits.VolumeFlowRate Kv "standard flow rate";
+      Real yLim = max(min(y,y1),0) "Limited valve opening";
+      Modelica.SIunits.VolumeFlowRate Kv "Standard flow rate";
     public 
       Modelica.Blocks.Interfaces.RealInput y 
@@ -1523 +1535 @@
             fillPattern=1))));
     
-    connector FlowPort 
+    connector FlowPort "conector flow port" 
       
     annotation (Documentation(info="<HTML>
@@ -1543 +1555 @@
 </p>
 </HTML>"));
-      parameter FluidHeatFlow.Media.Medium medium;
+      parameter FluidHeatFlow.Media.Medium medium "Medium in the connector";
       Modelica.SIunits.Pressure p;
       flow Modelica.SIunits.MassFlowRate m_flow;
@@ -1550 +1562 @@
     end FlowPort;
     
-    connector FlowPort_a 
+    connector FlowPort_a "Filled flow port (used upstream)" 
       
     annotation (Documentation(info="<HTML>
@@ -1584 +1596 @@
     end FlowPort_a;
     
-    connector FlowPort_b 
+    connector FlowPort_b "Hollow flow port (used downstream)" 
       
     annotation (Documentation(info="<HTML>
@@ -1611 +1623 @@
     end FlowPort_b;
     
-    package Partials 
+    package Partials "Partial models" 
       extends Modelica.Icons.Library;
     annotation (Documentation(info="<HTML>
@@ -1672 +1684 @@
 "));
       
-      partial model SimpleFriction 
+      partial model SimpleFriction "Simple friction model" 
         
       annotation (Documentation(info="<HTML>
@@ -1723 +1735 @@
               string="dp ~ V_flow²")));
         parameter Modelica.SIunits.VolumeFlowRate V_flowLaminar(min=Modelica.Constants.small)=0.1 
-          "|SimpleFriction|laminar volume flow";
+          "|SimpleFriction|Laminar volume flow";
         parameter Modelica.SIunits.Pressure dpLaminar=0.1 
-          "|SimpleFriction|laminar pressure drop";
+          "|SimpleFriction|Laminar pressure drop";
         parameter Modelica.SIunits.VolumeFlowRate V_flowNominal=1 
-          "|SimpleFriction|nominal volume flow";
+          "|SimpleFriction|Nominal volume flow";
         parameter Modelica.SIunits.Pressure dpNominal=1 
-          "|SimpleFriction|nominal pressure drop";
+          "|SimpleFriction|Nominal pressure drop";
         parameter Real frictionLoss(min=0, max=1) = 0 
-          "|SimpleFriction|part of friction losses fed to medium";
+          "|SimpleFriction|Part of friction losses fed to medium";
         Modelica.SIunits.Pressure pressureDrop;
         Modelica.SIunits.VolumeFlowRate VolumeFlow;
@@ -1755 +1767 @@
       end SimpleFriction;
       
-      partial model TwoPort 
+      partial model TwoPort "Partial model of two port" 
         
       annotation (Documentation(info="<HTML>
@@ -1768 +1780 @@
 </HTML>"));
         parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+          "Medium in the component" 
           annotation(choicesAllMatching=true);
-        parameter Modelica.SIunits.Mass m=1 "mass of medium";
+        parameter Modelica.SIunits.Mass m=1 "Mass of medium";
         parameter Modelica.SIunits.Temperature T0=Modelica.SIunits.Conversions.from_degC(20) 
-          "initial temperature of medium" 
+          "Initial temperature of medium" 
           annotation(Dialog(enable=m>Modelica.Constants.small));
         parameter Real tapT(final min=0, final max=1)=1 
-          "defines temperature of heatPort between inlet and outlet temperature";
+          "Defines temperature of heatPort between inlet and outlet temperature";
         Modelica.SIunits.Pressure dp=flowPort_a.p - flowPort_b.p 
-          "pressure drop a->b";
+          "Pressure drop a->b";
         Modelica.SIunits.VolumeFlowRate V_flow=flowPort_a.m_flow/medium.rho 
           "Volume flow a->b";
-        Modelica.SIunits.HeatFlowRate Q_flow "heat exchange with ambient";
+        Modelica.SIunits.HeatFlowRate Q_flow "Heat exchange with ambient";
         output Modelica.SIunits.Temperature T(start=T0) 
-          "outlet temperature of medium";
+          "Outlet temperature of medium";
         output Modelica.SIunits.Temperature T_a=flowPort_a.h/medium.cp 
-          "temperature at flowPort_a";
+          "Temperature at flowPort_a";
         output Modelica.SIunits.Temperature T_b=flowPort_b.h/medium.cp 
-          "temperature at flowPort_b";
+          "Temperature at flowPort_b";
         output Modelica.SIunits.TemperatureDifference dT=if noEvent(V_flow>=0) then T-T_a else T_b-T 
-          "temperature increase of coolant in flow direction";
+          "Temperature increase of coolant in flow direction";
       protected 
         Modelica.SIunits.SpecificEnthalpy h = medium.cp*T 
-          "medium's specific enthalpy";
+          "Medium's specific enthalpy";
         Modelica.SIunits.Temperature T_q = T  - noEvent(sign(V_flow))*(1 - tapT)*dT 
-          "temperature relevant for heat exchange with ambient";
+          "Temperature relevant for heat exchange with ambient";
       public 
         Interfaces.FlowPort_a flowPort_a(final medium=medium) 
@@ -1813 +1826 @@
       end TwoPort;
       
-      partial model Ambient 
+      partial model Ambient "Partial model of ambient" 
         
       annotation (Documentation(info="<HTML>
@@ -1830 +1843 @@
               string="%name")));
         parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+          "Ambient's medium" 
           annotation(choicesAllMatching=true);
-        output Modelica.SIunits.Temperature T "outlet temperature of medium";
+        output Modelica.SIunits.Temperature T "Outlet temperature of medium";
         output Modelica.SIunits.Temperature T_port=flowPort.h/medium.cp 
-          "temperature at flowPort_a";
+          "Temperature at flowPort_a";
       protected 
         Modelica.SIunits.SpecificEnthalpy h = medium.cp*T;
@@ -1845 +1859 @@
       end Ambient;
       
-      partial model AbsoluteSensor 
+      partial model AbsoluteSensor "Partial model of absolute sensor" 
         
       annotation (Documentation(info="<HTML>
@@ -1854 +1868 @@
 </HTML>"));
         parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+          "Sensor's medium" 
           annotation(choicesAllMatching=true);
         Interfaces.FlowPort_a flowPort(final medium=medium) 
@@ -1889 +1904 @@
       end AbsoluteSensor;
       
-      partial model RelativeSensor 
+      partial model RelativeSensor "Partial model of relative sensor" 
         
       annotation (Documentation(info="<HTML>
@@ -1898 +1913 @@
 </HTML>"));
         parameter FluidHeatFlow.Media.Medium medium=FluidHeatFlow.Media.Medium() 
+          "Sensor's medium" 
           annotation(choicesAllMatching=true);
         Interfaces.FlowPort_a flowPort_a(final medium=medium) 
@@ -1938 +1954 @@
       end RelativeSensor;
       
-      partial model FlowSensor 
+      partial model FlowSensor "Partial model of flow sensor" 
         
       annotation (Documentation(info="<HTML>
@@ -2046 +2062 @@
             fillPattern=1))));
     
-    record Medium 
+    record Medium "Record containing media properties" 
       extends Modelica.Icons.Record;
-      parameter Modelica.SIunits.Density rho = 1 "density";
+      parameter Modelica.SIunits.Density rho = 1 "Density";
       parameter Modelica.SIunits.SpecificHeatCapacity cp = 1 
-        "specific heat capacity at constant pressure";
+        "Specific heat capacity at constant pressure";
       parameter Modelica.SIunits.SpecificHeatCapacity cv = 1 
-        "specific heat capacity at constant volume";
+        "Specific heat capacity at constant volume";
       parameter Modelica.SIunits.ThermalConductivity lamda = 1 
-        "thermal conductivity";
+        "Thermal conductivity";
       parameter Modelica.SIunits.KinematicViscosity nue = 1 
         "kinematic viscosity";
+      annotation (Documentation(info="<html>
+Record containing (constant) medium properties.
+</html>"));
     end Medium;
     
-    record Air_30degC 
+    record Air_30degC "Medium: propeties of air at 30 degC" 
     extends Medium(
       rho=1.149,
@@ -2066 +2085 @@
       lamda=0.0264,
       nue=16.3E-6);
+      annotation (Documentation(info="<html>
+Medium: propeties of air at 30 degC
+</html>"));
     end Air_30degC;
     
-    record Air_70degC 
+    record Air_70degC "Medium: propeties of air at 70 degC" 
     extends Medium(
       rho=1.015,
@@ -2075 +2097 @@
       lamda=0.0293,
       nue=20.3E-6);
+      annotation (Documentation(info="<html>
+Medium: propeties of air at 70 degC
+</html>"));
     end Air_70degC;
     
-    record Water 
+    record Water "Medium: propeties of water" 
     extends Medium(
       rho=995.6,
@@ -2084 +2109 @@
       lamda=0.615,
       nue=0.8E-6);
+      annotation (Documentation(info="<html>
+Medium: propeties of water
+</html>"));
     end Water;
   end Media;
@@ -2187 +2215 @@
             fillPattern=1))));
     
-    model pSensor 
+    model pSensor "Absolute pressure sensor" 
       
     annotation (Documentation(info="<HTML>