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ftEqn.H
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1 if (thermo.containsSpecie("ft"))
2 {
3  volScalarField& ft = thermo.Y("ft");
4 
5  solve
6  (
7  betav*fvm::ddt(rho, ft)
8  + mvConvection->fvmDiv(phi, ft)
9  - fvm::laplacian(Db, ft)
10  );
11 }
volScalarField Db("Db", rho *turbulence->nuEff())
tmp< fv::convectionScheme< scalar > > mvConvection(fv::convectionScheme< scalar >::New(mesh, fields, phi, mesh.schemes().div("div(phi,ft_b_ha_hau)")))
tmp< VolField< Type > > ddt(const dimensioned< Type > dt, const fvMesh &mesh)
Definition: fvcDdt.C:45
tmp< VolField< Type > > laplacian(const VolField< Type > &vf, const word &name)
Definition: fvcLaplacian.C:45
VolField< scalar > volScalarField
Definition: volFieldsFwd.H:64
fluidMulticomponentThermo & thermo
Definition: createFields.H:31
rhoEqn solve()