diff --git a/Modelica/Media/Air/MoistAir.mo b/Modelica/Media/Air/MoistAir.mo index 860fae642d..38fa0d4176 100644 --- a/Modelica/Media/Air/MoistAir.mo +++ b/Modelica/Media/Air/MoistAir.mo @@ -1168,7 +1168,7 @@ end thermalConductivity; algorithm a := sqrt(isentropicExponent(state)*gasConstant(state)*temperature(state)); annotation (Documentation(revisions=" -
2012-01-12 Stefan Wischhusen: Initial Release.
+2012-01-12 Stefan Wischhusen: Initial Release.
")); end velocityOfSound; @@ -1177,7 +1177,7 @@ end thermalConductivity; algorithm beta := 1/temperature(state); annotation (Documentation(revisions=" -2012-01-12 Stefan Wischhusen: Initial Release.
+2012-01-12 Stefan Wischhusen: Initial Release.
")); end isobaricExpansionCoefficient; @@ -1186,7 +1186,7 @@ end thermalConductivity; algorithm kappa := 1/pressure(state); annotation (Documentation(revisions=" -2012-01-12 Stefan Wischhusen: Initial Release.
+2012-01-12 Stefan Wischhusen: Initial Release.
")); end isothermalCompressibility; @@ -1196,7 +1196,7 @@ end thermalConductivity; ddph := 1/(gasConstant(state)*temperature(state)); annotation (Documentation(revisions=" -2012-01-12 Stefan Wischhusen: Initial Release.
+2012-01-12 Stefan Wischhusen: Initial Release.
")); end density_derp_h; @@ -1205,7 +1205,7 @@ end thermalConductivity; algorithm ddhp := -density(state)/(specificHeatCapacityCp(state)*temperature(state)); annotation (Documentation(revisions=" -2012-01-12 Stefan Wischhusen: Initial Release.
+2012-01-12 Stefan Wischhusen: Initial Release.
")); end density_derh_p; @@ -1215,7 +1215,7 @@ end thermalConductivity; ddpT := 1/(gasConstant(state)*temperature(state)); annotation (Documentation(revisions=" -2012-01-12 Stefan Wischhusen: Initial Release.
+2012-01-12 Stefan Wischhusen: Initial Release.
")); end density_derp_T; @@ -1224,7 +1224,7 @@ end thermalConductivity; algorithm ddTp := -density(state)/temperature(state); annotation (Documentation(revisions=" -2012-01-12 Stefan Wischhusen: Initial Release.
+2012-01-12 Stefan Wischhusen: Initial Release.
")); end density_derT_p; @@ -1237,8 +1237,8 @@ end thermalConductivity; state.X[Air])^2*temperature(state)); annotation (Documentation(revisions=" -2012-01-12 Stefan Wischhusen: Initial Release.
-2019-05-14 Stefan Wischhusen: Corrected derivatives.
+2012-01-12 Stefan Wischhusen: Initial Release.
+2019-05-14 Stefan Wischhusen: Corrected derivatives.
")); end density_derX; @@ -1246,7 +1246,7 @@ end thermalConductivity; algorithm MM := Modelica.Constants.R/Modelica.Media.Air.MoistAir.gasConstant(state); annotation (Documentation(revisions=" -2012-01-12 Stefan Wischhusen: Initial Release.
+2012-01-12 Stefan Wischhusen: Initial Release.
")); end molarMass; @@ -1275,7 +1275,7 @@ end thermalConductivity; Temperature is computed from pressure, specific entropy and composition via numerical inversion of function s_pTX.