EEqn.H
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1 {
2  volScalarField& he = thermo.he();
3 
4  fvScalarMatrix EEqn
5  (
6  fvm::ddt(rho, he) + fvm::div(phi, he)
7  + fvc::ddt(rho, K) + fvc::div(phi, K)
8  + (
9  he.name() == "e"
10  ? fvc::div
11  (
12  fvc::absolute(phi/fvc::interpolate(rho), U),
13  p,
14  "div(phiv,p)"
15  )
16  : -dpdt
17  )
18  - fvm::laplacian(turbulence->alphaEff(), he)
19  ==
20  rho*(U&g)
21  + radiation->Sh(thermo)
22  + fvOptions(rho, he)
23  );
24 
25  EEqn.relax();
26 
27  fvOptions.constrain(EEqn);
28 
29  EEqn.solve();
30 
31  fvOptions.correct(he);
32 
33  thermo.correct();
34  radiation->correct();
35 }
p
p
Definition: pEqn.H:62
phi
surfaceScalarField & phi
Definition: setRegionFluidFields.H:8
Foam::MULES::interpolate
tmp< surfaceScalarField > interpolate(const RhoType &rho)
Definition: IMULESTemplates.C:40
thermo
Basic thermodynamics type based on the use of fitting functions for cp, h, s obtained from the templa...
Foam::fvc::div
tmp< GeometricField< Type, fvPatchField, volMesh > > div(const GeometricField< Type, fvsPatchField, surfaceMesh > &ssf)
Definition: fvcDiv.C:47
g
const dimensionedVector & g
Definition: setRegionFluidFields.H:33
dpdt
volScalarField & dpdt
Definition: setRegionFluidFields.H:12
U
U
Definition: pEqn.H:46
K
CGAL::Exact_predicates_exact_constructions_kernel K
Definition: CGALTriangulation3DKernel.H:56
Foam::fvc::laplacian
tmp< GeometricField< Type, fvPatchField, volMesh > > laplacian(const GeometricField< Type, fvPatchField, volMesh > &vf, const word &name)
Definition: fvcLaplacian.C:45
Foam::fvScalarMatrix
fvMatrix< scalar > fvScalarMatrix
Definition: fvMatricesFwd.H:42
turbulence
autoPtr< compressible::turbulenceModel > turbulence
Definition: createFields.H:23
Foam::volScalarField
GeometricField< scalar, fvPatchField, volMesh > volScalarField
Definition: volFieldsFwd.H:52
radiation
autoPtr< radiation::radiationModel > radiation(radiation::radiationModel::New(T))
rho
rho
Definition: pEqn.H:3
EEqn
fvScalarMatrix EEqn(fvm::div(phi, he)+(he.name()=="e" ? fvc::div(phi, volScalarField("Ekp", 0.5 *magSqr(U)+p/rho)) :fvc::div(phi, volScalarField("K", 0.5 *magSqr(U)))) - fvm::laplacian(turb.alphaEff(), he)==rho *(U &g)+rad.Sh(thermo)+fvOptions(rho, he))
he
volScalarField & he
Definition: YEEqn.H:56
Foam::fvc::ddt
tmp< GeometricField< Type, fvPatchField, volMesh > > ddt(const dimensioned< Type > dt, const fvMesh &mesh)
Definition: fvcDdt.C:45
Foam::fvc::absolute
tmp< surfaceScalarField > absolute(const tmp< surfaceScalarField > &tphi, const volVectorField &U)
Return the given relative flux in absolute form.
Definition: fvcMeshPhi.C:187
fvOptions
fv::options & fvOptions
Definition: setRegionFluidFields.H:16

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