pEqn.H File Reference

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Functions
surfaceScalarField	alphaf1 ("alphaf1", fvc::interpolate(alpha1))
surfaceScalarField	alphaf2 ("alphaf2", scalar(1) - alphaf1)
volScalarField	rAU1 (IOobject::groupName("rAU", phase1.name()), 1.0/(U1Eqn.A()+max(phase1.residualAlpha() - alpha1, scalar(0)) *rho1/runTime.deltaT()))
volScalarField	rAU2 (IOobject::groupName("rAU", phase2.name()), 1.0/(U2Eqn.A()+max(phase2.residualAlpha() - alpha2, scalar(0)) *rho2/runTime.deltaT()))
surfaceScalarField	alpharAUf1 (fvc::interpolate(max(alpha1, phase1.residualAlpha()) *rAU1))
surfaceScalarField	alpharAUf2 (fvc::interpolate(max(alpha2, phase2.residualAlpha()) *rAU2))
volScalarField	Kd (fluid.Kd())
tmp< surfaceScalarField >	DbyA1 (fvc::interpolate(rAU1 *(D+phase1.turbulence().pPrime())))
tmp< surfaceScalarField >	DbyA2 (fvc::interpolate(rAU2 *(D+phase2.turbulence().pPrime())))
volVectorField	F (fluid.F())
surfaceScalarField	snGradAlpha1 (fvc::snGrad(alpha1) *mesh.magSf())
	if (implicitPhasePressure)
	while (pimple.correct())

Variables
tmp< surfaceScalarField >	phiF1
tmp< surfaceScalarField >	phiF2

Function Documentation

alphaf1()

surfaceScalarField alphaf1	(	"alphaf1"	,
		fvc::interpolate(alpha1)
	)

Referenced by while().

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alphaf2()

surfaceScalarField alphaf2	(	"alphaf2"	,
		scalar(1) -	alphaf1
	)

Referenced by while().

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rAU1()

volScalarField rAU1	(	IOobject::groupName("rAU", phase1.name())	,
		1.0/	U1Eqn.A()+max(phase1.residualAlpha() - alpha1, scalar(0)) *rho1/runTime.deltaT()
	)

Referenced by while().

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rAU2()

volScalarField rAU2	(	IOobject::groupName("rAU", phase2.name())	,
		1.0/	U2Eqn.A()+max(phase2.residualAlpha() - alpha2, scalar(0)) *rho2/runTime.deltaT()
	)

Referenced by while().

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alpharAUf1()

surfaceScalarField alpharAUf1

(

fvc::interpolate(max(alpha1, phase1.residualAlpha()) *rAU1)

)

Referenced by while().

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alpharAUf2()

surfaceScalarField alpharAUf2

(

fvc::interpolate(max(alpha2, phase2.residualAlpha()) *rAU2)

)

Referenced by while().

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Kd()

volScalarField Kd

(

fluid.

Kd()

)

Referenced by while().

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DbyA1()

tmp<surfaceScalarField> DbyA1

(

fvc::interpolate(rAU1 *(D+phase1.turbulence().pPrime()))

)

Referenced by if().

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DbyA2()

tmp<surfaceScalarField> DbyA2

(

fvc::interpolate(rAU2 *(D+phase2.turbulence().pPrime()))

)

Referenced by if().

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F()

volVectorField F

(

fluid.

F()

)

snGradAlpha1()

surfaceScalarField snGradAlpha1

(

fvc::snGrad(alpha1) *mesh.magSf()

)

if()

if

(

implicitPhasePressure

)

Definition at line 83 of file pEqn.H.

References DbyA1(), DbyA2(), phase1, and phase2.

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while()

while

(

pimple.

correct()

)

Definition at line 92 of file pEqn.H.

References alpha1, alpha2, alphaf1(), alphaf2(), alphaPhi1, alphaPhi2, alpharAUf1(), alpharAUf2(), Foam::fvc::average(), Foam::correction(), Foam::fvc::ddt(), Foam::deleteDemandDrivenData(), Foam::fvc::div(), fluid, forAll(), fvOptions, g, gh, ghf, ghSnGradRho(), Foam::MULES::interpolate(), Kd(), Foam::fvc::laplacian(), Foam::mag(), Foam::max(), mesh, MRF, p, p_rgh, p_rgh_0(), patchi, phase1, phase2, phi, phi1, phi2, phiF1, phiF2, phiHbyA, phir(), pimple, pMin(), Foam::pos(), psi1, psi2, rAU1(), rAU2(), rAUf(), Foam::fvc::reconstruct(), rho, rho1, rho2, setSnGrad< fixedFluxPressureFvPatchScalarField >(), Foam::fvc::snGrad(), solve(), Foam::fvc::Sp(), Foam::fvc::Su(), U, U1, and U2.

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Variable Documentation

phiF1

phiF1

Initial value:

=
    (
        DbyA1()*snGradAlpha1
      + (fvc::interpolate(rAU1*F) & mesh.Sf())
    )

Definition at line 37 of file pEqn.H.

Referenced by while().

phiF2

phiF2

Initial value:

=
    (
      - DbyA2()*snGradAlpha1
      - (fvc::interpolate(rAU2*F) & mesh.Sf())
    )

Definition at line 38 of file pEqn.H.

Referenced by while().