Class which represents a stationary (and therefore probably solid) phase. Generates, but does not store, zero velocity and flux field and turbulent quantities. Throws an error when non-const access is requested to the motion fields or when the momentum equation is requested. Usage must must protect against such calls. More...
Public Member Functions | |
StationaryPhaseModel (const phaseSystem &fluid, const word &phaseName, const bool referencePhase, const label index) | |
virtual | ~StationaryPhaseModel () |
Destructor. More... | |
virtual bool | stationary () const |
Return whether the phase is stationary. More... | |
virtual tmp< fvVectorMatrix > | UEqn () |
Return the momentum equation. More... | |
virtual tmp< fvVectorMatrix > | UfEqn () |
Return the momentum equation for the face-based algorithm. More... | |
virtual tmp< volVectorField > | U () const |
Return the velocity. More... | |
virtual volVectorField & | URef () |
Access the velocity. More... | |
virtual tmp< surfaceScalarField > | phi () const |
Return the volumetric flux. More... | |
virtual surfaceScalarField & | phiRef () |
Access the volumetric flux. More... | |
virtual tmp< surfaceVectorField > | Uf () const |
Return the face velocity. More... | |
virtual surfaceVectorField & | UfRef () |
Access the face velocity. More... | |
virtual tmp< surfaceScalarField > | alphaPhi () const |
Return the volumetric flux of the phase. More... | |
virtual surfaceScalarField & | alphaPhiRef () |
Access the volumetric flux of the phase. More... | |
virtual tmp< surfaceScalarField > | alphaRhoPhi () const |
Return the mass flux of the phase. More... | |
virtual surfaceScalarField & | alphaRhoPhiRef () |
Access the mass flux of the phase. More... | |
virtual tmp< volVectorField > | DUDt () const |
Return the substantive acceleration. More... | |
virtual tmp< surfaceScalarField > | DUDtf () const |
Return the substantive acceleration on the faces. More... | |
virtual tmp< volScalarField > | continuityError () const |
Return the continuity error. More... | |
virtual tmp< volScalarField > | K () const |
Return the phase kinetic energy. More... | |
virtual tmp< volScalarField > | divU () const |
Return the phase dilatation rate (d(alpha)/dt + div(alpha*phi)) More... | |
virtual void | divU (tmp< volScalarField > divU) |
Set the phase dilatation rate (d(alpha)/dt + div(alpha*phi)) More... | |
virtual tmp< scalarField > | kappaEff (const label patchi) const |
Return the effective thermal conductivity on a patch. More... | |
virtual tmp< volScalarField > | k () const |
Return the turbulent kinetic energy. More... | |
virtual tmp< volScalarField > | pPrime () const |
Return the phase-pressure'. More... | |
virtual tmp< fvScalarMatrix > | divq (volScalarField &he) const |
Return the source term for the energy equation. More... | |
Class which represents a stationary (and therefore probably solid) phase. Generates, but does not store, zero velocity and flux field and turbulent quantities. Throws an error when non-const access is requested to the motion fields or when the momentum equation is requested. Usage must must protect against such calls.
Definition at line 56 of file StationaryPhaseModel.H.
StationaryPhaseModel | ( | const phaseSystem & | fluid, |
const word & | phaseName, | ||
const bool | referencePhase, | ||
const label | index | ||
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Destructor.
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Return whether the phase is stationary.
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Return the momentum equation.
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Return the momentum equation for the face-based algorithm.
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Return the velocity.
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Access the velocity.
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Return the volumetric flux.
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Access the volumetric flux.
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Return the face velocity.
Required for moving mesh cases
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Access the face velocity.
Required for moving mesh cases
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Return the volumetric flux of the phase.
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Access the volumetric flux of the phase.
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Return the mass flux of the phase.
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Access the mass flux of the phase.
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Return the substantive acceleration.
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Return the substantive acceleration on the faces.
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Return the continuity error.
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Return the phase kinetic energy.
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Return the phase dilatation rate (d(alpha)/dt + div(alpha*phi))
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Set the phase dilatation rate (d(alpha)/dt + div(alpha*phi))
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Return the effective thermal conductivity on a patch.
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Return the turbulent kinetic energy.
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Return the phase-pressure'.
(derivative of phase-pressure w.r.t. phase-fraction)
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Return the source term for the energy equation.