34 template<
class MixtureType>
53 template<
class MixtureType>
59 return this->getLocalThermo(speciei).W();
63 template<
class MixtureType>
66 return this->getLocalThermo(speciei).Hc();
70 template<
class MixtureType>
78 return this->getLocalThermo(speciei).Cp(
p,
T);
82 template<
class MixtureType>
90 return this->getLocalThermo(speciei).Cv(
p,
T);
94 template<
class MixtureType>
102 return this->getLocalThermo(speciei).HE(
p,
T);
106 template<
class MixtureType>
114 return this->getLocalThermo(speciei).Ha(
p,
T);
118 template<
class MixtureType>
126 return this->getLocalThermo(speciei).Hs(
p,
T);
130 template<
class MixtureType>
138 return this->getLocalThermo(speciei).S(
p,
T);
142 template<
class MixtureType>
150 return this->getLocalThermo(speciei).Es(
p,
T);
154 template<
class MixtureType>
162 return this->getLocalThermo(speciei).G(
p,
T);
166 template<
class MixtureType>
174 return this->getLocalThermo(speciei).A(
p,
T);
178 template<
class MixtureType>
186 return this->getLocalThermo(speciei).mu(
p,
T);
190 template<
class MixtureType>
198 return this->getLocalThermo(speciei).kappa(
p,
T);
202 template<
class MixtureType>
210 return this->getLocalThermo(speciei).alphah(
p,
T);
214 template<
class MixtureType>
222 return this->getLocalThermo(speciei).rho(
p,
T);
virtual scalar HE(const label speciei, const scalar p, const scalar T) const
Enthalpy/Internal energy [J/kg].
A list of keyword definitions, which are a keyword followed by a number of values (eg...
virtual scalar Hs(const label speciei, const scalar p, const scalar T) const
Sensible enthalpy [J/kg].
virtual scalar S(const label speciei, const scalar p, const scalar T) const
Entropy [J/(kg K)].
virtual scalar Hc(const label speciei) const
Chemical enthalpy [J/kg].
virtual scalar alphah(const label speciei, const scalar p, const scalar T) const
Thermal diffusivity of enthalpy [kg/m/s].
A class for handling words, derived from Foam::string.
virtual tmp< volScalarField > Cv() const =0
Heat capacity at constant volume [J/kg/K].
const dictionary & thermoDict
virtual scalar Ha(const label speciei, const scalar p, const scalar T) const
Absolute enthalpy [J/kg].
virtual scalar A(const label speciei, const scalar p, const scalar T) const
Helmholtz free energy [J/kg].
virtual scalar rho(const label speciei, const scalar p, const scalar T) const
Density [kg/m3].
virtual scalar mu(const label speciei, const scalar p, const scalar T) const
Dynamic viscosity [kg/m/s].
virtual scalar Es(const label speciei, const scalar p, const scalar T) const
Sensible internal energy [J/kg].
virtual tmp< volScalarField > kappa() const =0
Thermal diffusivity for temperature of mixture [J/m/s/K].
Mesh data needed to do the Finite Volume discretisation.
SpecieMixture(const dictionary &thermoDict, const fvMesh &mesh, const word &phaseName)
Construct from dictionary, mesh and phase name.
virtual scalar G(const label speciei, const scalar p, const scalar T) const
Gibbs free energy [J/kg].
virtual tmp< volScalarField > Cp() const =0
Heat capacity at constant pressure for patch [J/kg/K].
virtual tmp< volScalarField > W() const =0
Molecular weight of the given specie [kg/kmol].