continuityPredictor.C
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25 
26 #include "isothermalFilm.H"
27 #include "fvcDdt.H"
28 #include "fvcDiv.H"
29 #include "fvmDdt.H"
30 
31 // * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * * //
32 
33 void Foam::solvers::isothermalFilm::continuityPredictor()
34 {
35  // Update delta and alpha BCs for time-varying inlets etc.
36  delta_.correctBoundaryConditions();
37  alpha_.boundaryFieldRef() == delta.boundaryField()/VbyA.boundaryField();
38 
39  fvScalarMatrix alphaEqn
40  (
41  fvm::ddt(rho, alpha_) + fvc::div(alphaRhoPhi)
42  ==
43  fvModels().source(rho, alpha_)
44  );
45 
46  alphaEqn.solve();
47 
48  fvConstraints().constrain(alpha_);
49 
50  // Remove potential unboundedness in alpha caused by div(alphaRhoPhi)
51  alpha_.max(0);
52 
53  // Calculate the continuity error caused by limiting alpha
54  // Reset to ~0 following the alpha corrector
55  correctContinuityError();
56 
57  // Update film thickness
58  correctDelta();
59 }
60 
61 
62 void Foam::solvers::isothermalFilm::correctContinuityError()
63 {
64  contErr =
65  (
66  fvc::ddt(rho, alpha)()() + fvc::div(alphaRhoPhi)()()
67  - (fvModels().source(rho, alpha) & alpha)()()
68  );
69 }
70 
71 
72 void Foam::solvers::isothermalFilm::correctDelta()
73 {
74  delta_ = alpha*VbyA;
75  delta_.correctBoundaryConditions();
76 }
77 
78 
79 // ************************************************************************* //
Foam::GeometricField::max
void max(const dimensioned< Type > &)
Definition: GeometricField.C:1542
Foam::GeometricField::boundaryField
const Boundary & boundaryField() const
Return const-reference to the boundary field.
Definition: GeometricFieldI.H:60
Foam::GeometricField::correctBoundaryConditions
void correctBoundaryConditions()
Correct boundary field.
Definition: GeometricField.C:1282
Foam::GeometricField::boundaryFieldRef
Boundary & boundaryFieldRef()
Return a reference to the boundary field.
Definition: GeometricField.C:1037
Foam::fvConstraints::constrain
bool constrain(fvMatrix< Type > &eqn) const
Apply constraints to an equation.
Definition: fvConstraintsTemplates.C:29
Foam::solver::fvModels
Foam::fvModels & fvModels() const
Return the fvModels that are created on demand.
Definition: solver.C:85
Foam::solver::fvConstraints
Foam::fvConstraints & fvConstraints() const
Return the fvConstraints that are created on demand.
Definition: solver.C:96
Foam::solvers::isothermalFilm::alphaRhoPhi
const surfaceScalarField & alphaRhoPhi
Reference to the film mass-flux field.
Definition: isothermalFilm.H:281
Foam::solvers::isothermalFilm::delta_
volScalarField delta_
Film thickness.
Definition: isothermalFilm.H:126
Foam::solvers::isothermalFilm::VbyA
const volScalarField & VbyA
Film cell volume/wall face area.
Definition: isothermalFilm.H:263
Foam::solvers::isothermalFilm::delta
const volScalarField & delta
Film thickness.
Definition: isothermalFilm.H:266
Foam::solvers::isothermalFilm::rho
const volScalarField & rho
Reference to the thermodynamic density field.
Definition: isothermalFilm.H:275
Foam::solvers::isothermalFilm::alpha_
volScalarField alpha_
Film volume fraction in the cell layer.
Definition: isothermalFilm.H:129
fvModels
Foam::fvModels & fvModels(Foam::fvModels::New(mesh))
fvcDdt.H
Calculate the first temporal derivative.
fvcDiv.H
Calculate the divergence of the given field.
fvmDdt.H
Calculate the matrix for the first temporal derivative.
alpha
volScalarField alpha(IOobject("alpha", runTime.name(), mesh, IOobject::READ_IF_PRESENT, IOobject::AUTO_WRITE), lambda *max(Ua &U, zeroSensitivity))
Foam::fvc::ddt
tmp< VolField< Type > > ddt(const dimensioned< Type > dt, const fvMesh &mesh)
Definition: fvcDdt.C:45
Foam::fvc::div
tmp< VolField< Type > > div(const SurfaceField< Type > &ssf)
Definition: fvcDiv.C:47
Foam::fvm::ddt
tmp< fvMatrix< Type > > ddt(const VolField< Type > &vf)
Definition: fvmDdt.C:46
Foam::fvScalarMatrix
fvMatrix< scalar > fvScalarMatrix
Definition: fvMatricesFwd.H:42