.AixLib.DataBase.CHP.ModularCHPEngineMedia.CHPCombustionMixtureGasNasa

Information

This model calculates the medium properties for single component ideal gases.

Sources for model and literature:
Original Data: Computer program for calculation of complex chemical equilibrium compositions and applications. Part 1: Analysis Document ID: 19950013764 N (95N20180) File Series: NASA Technical Reports Report Number: NASA-RP-1311 E-8017 NAS 1.61:1311 Authors: Gordon, Sanford (NASA Lewis Research Center) Mcbride, Bonnie J. (NASA Lewis Research Center) Published: Oct 01, 1994.

Known limits of validity:
The data is valid for temperatures between 200 K and 6000 K. A few of the data sets for monatomic gases have a discontinuous 1st derivative at 1000 K, but this never caused problems so far.

This model has been copied from the ThermoFluid library. It has been developed by Hubertus Tummescheit.

Contents

NameDescription
 ThermodynamicStateThermodynamic state variables
 BasePropertiesBase properties (p, d, T, h, u, R, MM, X, and Xi of NASA mixture gas
 setState_pTXReturn thermodynamic state as function of p, T and composition X
 setState_phXReturn thermodynamic state as function of p, h and composition X
 setState_psXReturn thermodynamic state as function of p, s and composition X
 setState_dTXReturn thermodynamic state as function of d, T and composition X
 setSmoothStateReturn thermodynamic state so that it smoothly approximates: if x > 0 then state_a else state_b
 pressureReturn pressure of ideal gas
 temperatureReturn temperature of ideal gas
 densityReturn density of ideal gas
 specificEnthalpyReturn specific enthalpy
 specificInternalEnergyReturn specific internal energy
 specificEntropyReturn specific entropy
 specificGibbsEnergyReturn specific Gibbs energy
 specificHelmholtzEnergyReturn specific Helmholtz energy
 h_TXReturn specific enthalpy
 h_TX_derReturn specific enthalpy derivative
 gasConstantReturn gasConstant
 specificHeatCapacityCpReturn specific heat capacity at constant pressure
 specificHeatCapacityCvReturn specific heat capacity at constant volume from temperature and gas data
 MixEntropyReturn mixing entropy of ideal gases / R
 s_TXReturn temperature dependent part of the entropy, expects full entropy vector
 isentropicExponentReturn isentropic exponent
 velocityOfSoundReturn velocity of sound
 isentropicEnthalpyApproximationApproximate method of calculating h_is from upstream properties and downstream pressure
 isentropicEnthalpyReturn isentropic enthalpy
 gasMixtureViscosityReturn viscosities of gas mixtures at low pressures (Wilke method)
 dynamicViscosityReturn mixture dynamic viscosity
 mixtureViscosityChungReturn the viscosity of gas mixtures without access to component viscosities (Chung, et. al. rules)
 lowPressureThermalConductivityReturn thermal conductivities of low-pressure gas mixtures (Mason and Saxena Modification)
 thermalConductivityReturn thermal conductivity for low pressure gas mixtures
 isobaricExpansionCoefficientReturn isobaric expansion coefficient beta
 isothermalCompressibilityReturn isothermal compressibility factor
 density_derp_TReturn density derivative by pressure at constant temperature
 density_derT_pReturn density derivative by temperature at constant pressure
 density_derXReturn density derivative by mass fraction
 molarMassReturn molar mass of mixture
 T_hXReturn temperature from specific enthalpy and mass fraction
 T_psXReturn temperature from pressure, specific entropy and mass fraction

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