Functions | Variables
EEqns.H File Reference

Go to the source code of this file.

Functions

volScalarField Cpv1 ("Cpv1", thermo1.Cpv())
 
volScalarField Cpv2 ("Cpv2", thermo2.Cpv())
 
volScalarField Kh (fluid.Kh())
 
fvScalarMatrix E1Eqn (fvm::ddt(alpha1, rho1, he1)+fvm::div(alphaRhoPhi1, he1)-fvm::Sp(contErr1, he1)+fvc::ddt(alpha1, rho1, K1)+fvc::div(alphaRhoPhi1, K1)-contErr1 *K1+( he1.name()==thermo1.phasePropertyName("e") ?fvc::ddt(alpha1)*p+fvc::div(alphaPhi1, p) :-alpha1 *dpdt )-fvm::laplacian( fvc::interpolate(alpha1) *fvc::interpolate(thermo1.alphaEff(phase1.turbulence().mut())), he1 ))
 
E1Eqn relax ()
 
fvScalarMatrix E2Eqn (fvm::ddt(alpha2, rho2, he2)+fvm::div(alphaRhoPhi2, he2)-fvm::Sp(contErr2, he2)+fvc::ddt(alpha2, rho2, K2)+fvc::div(alphaRhoPhi2, K2)-contErr2 *K2+( he2.name()==thermo2.phasePropertyName("e") ?fvc::ddt(alpha2)*p+fvc::div(alphaPhi2, p) :-alpha2 *dpdt )-fvm::laplacian( fvc::interpolate(alpha2) *fvc::interpolate(thermo2.alphaEff(phase2.turbulence().mut())), he2 ))
 
fvOptions constrain (E1Eqn)
 
E1Eqn solve ()
 
fvOptions constrain (E2Eqn)
 
thermo1 correct ()
 

Variables

volScalarField & he2 = thermo2.he()
 
 E1Eqn
 
 E2Eqn
 

Function Documentation

volScalarField Cpv1 ( "Cpv1"  ,
thermo1.  Cpv() 
)
volScalarField Cpv2 ( "Cpv2"  ,
thermo2.  Cpv() 
)
volScalarField Kh ( fluid.  Kh())
fvScalarMatrix E1Eqn ( fvm::ddt(alpha1, rho1, he1)+fvm::div(alphaRhoPhi1, he1)-fvm::Sp(contErr1, he1)+fvc::ddt(alpha1, rho1, K1)+fvc::div(alphaRhoPhi1, K1)-contErr1 *K1+( he1.name()==thermo1.phasePropertyName("e") ?fvc::ddt(alpha1)*p+fvc::div(alphaPhi1, p) :-alpha1 *dpdt )-fvm::laplacian( fvc::interpolate(alpha1) *fvc::interpolate(thermo1.alphaEff(phase1.turbulence().mut())), he1 )  )
E1Eqn relax ( )
fvScalarMatrix E2Eqn ( fvm::ddt(alpha2, rho2, he2)+fvm::div(alphaRhoPhi2, he2)-fvm::Sp(contErr2, he2)+fvc::ddt(alpha2, rho2, K2)+fvc::div(alphaRhoPhi2, K2)-contErr2 *K2+( he2.name()==thermo2.phasePropertyName("e") ?fvc::ddt(alpha2)*p+fvc::div(alphaPhi2, p) :-alpha2 *dpdt )-fvm::laplacian( fvc::interpolate(alpha2) *fvc::interpolate(thermo2.alphaEff(phase2.turbulence().mut())), he2 )
fvOptions constrain ( E1Eqn  )
E1Eqn solve ( )
fvOptions constrain ( E2Eqn  )
thermo1 correct ( )

Variable Documentation

volScalarField& he2 = thermo2.he()

Definition at line 3 of file EEqns.H.

E1Eqn
Initial value:
=
(
Kh*(thermo2.T() - thermo1.T())
+ Kh*he1/Cpv1
- fvm::Sp(Kh/Cpv1, he1)
)
volVectorField & U1
Definition: createFields.H:18
tmp< GeometricField< Type, fvPatchField, volMesh > > Sp(const volScalarField &sp, const GeometricField< Type, fvPatchField, volMesh > &vf)
Definition: fvcSup.C:67
rhoThermo & thermo1
Definition: createFields.H:39
fv::IOoptionList & fvOptions
volScalarField Cpv1("Cpv1", thermo1.Cpv())
volScalarField Kh(fluid.Kh())
rho1
Definition: pEqn.H:124
volScalarField & alpha1
Definition: createFields.H:15
const dimensionedVector & g
rhoThermo & thermo2
Definition: createFields.H:40

Definition at line 33 of file EEqns.H.

Referenced by if().

E2Eqn
Initial value:
=
(
Kh*(thermo1.T() - thermo2.T())
)
volVectorField & U2
Definition: createFields.H:23
tmp< GeometricField< Type, fvPatchField, volMesh > > Sp(const volScalarField &sp, const GeometricField< Type, fvPatchField, volMesh > &vf)
Definition: fvcSup.C:67
rhoThermo & thermo1
Definition: createFields.H:39
fv::IOoptionList & fvOptions
volScalarField Kh(fluid.Kh())
rho2
Definition: pEqn.H:125
alpha2
Definition: alphaEqn.H:112
const dimensionedVector & g
rhoThermo & thermo2
Definition: createFields.H:40
volScalarField & he2
Definition: EEqns.H:3
volScalarField Cpv2("Cpv2", thermo2.Cpv())

Definition at line 65 of file EEqns.H.