.Modelica.Media.Air.ReferenceAir.Air_Base

Information

This model calculates medium properties for air in the liquid, gas and two phase regions. Three variable pairs can be the independent variables of the model:

  1. Pressure p and specific enthalpy h are the most natural choice for general applications. This is the recommended choice for most general purpose applications.
  2. Pressure p and temperature T are the most natural choice for applications where air is always in the same phase (liquid or gas).
  3. Density d and temperature T are explicit variables of the Helmholtz function in the near-critical region and can be the best choice for applications with super-critical or near-critical states.

The following quantities are always computed:

Variable Unit Description
T K temperature
u J/kg specific internal energy
d kg/m^3 density
p Pa pressure
h J/kg specific enthalpy

In some cases additional medium properties are needed. A component that needs these optional properties has to call one of the functions listed in Modelica.Media.UsersGuide.MediumUsage.OptionalProperties and in Modelica.Media.UsersGuide.MediumUsage.TwoPhase.

Many further properties can be computed. Using the well-known Bridgman's Tables, all first partial derivatives of the standard thermodynamic variables can be computed easily.

Contents

Name Description
 ThermodynamicState Thermodynamic state
 BaseProperties Base properties of air
 density_ph Computes density as a function of pressure and specific enthalpy
 temperature_ph Computes temperature as a function of pressure and specific enthalpy
 temperature_ps Compute temperature from pressure and specific enthalpy
 density_ps Computes density as a function of pressure and specific enthalpy
 pressure_dT Computes pressure as a function of density and temperature
 specificEnthalpy_dT Computes specific enthalpy as a function of density and temperature
 specificEnthalpy_pT Computes specific enthalpy as a function of pressure and temperature
 specificEnthalpy_ps Computes specific enthalpy as a function of pressure and temperature
 density_pT Computes density as a function of pressure and temperature
 dynamicViscosity Return dynamic viscosity as a function of the thermodynamic state record
 thermalConductivity Thermal conductivity of air
 pressure Return pressure of ideal gas
 temperature Return temperature of ideal gas
 density Return density of ideal gas
 specificEnthalpy Return specific enthalpy
 specificInternalEnergy Return specific internal energy
 specificGibbsEnergy Return specific Gibbs energy
 specificHelmholtzEnergy Return specific Helmholtz energy
 specificEntropy Specific entropy of air
 specificHeatCapacityCp Specific heat capacity at constant pressure of air
 specificHeatCapacityCv Specific heat capacity at constant volume of air
 isentropicExponent Return isentropic exponent
 isothermalCompressibility Isothermal compressibility of air
 isobaricExpansionCoefficient Isobaric expansion coefficient of air
 velocityOfSound Return velocity of sound as a function of the thermodynamic state record
 density_derh_p Density derivative by specific enthalpy
 density_derp_h Density derivative by pressure
 setState_dTX Return thermodynamic state of air as function of d and T
 setState_phX Return thermodynamic state of air as function of p and h
 setState_psX Return thermodynamic state of air as function of p and s
 setState_pTX Return thermodynamic state of air as function of p and T
 setSmoothState Return thermodynamic state so that it smoothly approximates: if x > 0 then state_a else state_b
 isentropicEnthalpy
 molarMass Return the molar mass of the medium

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