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volScalarField | rAU (1.0/UEqn.A()) |
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volScalarField | rAtU (1.0/(1.0/rAU - UEqn.H1())) |
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volVectorField | HbyA (constrainHbyA(rAU *UEqn.H(), U, p)) |
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tUEqn | clear () |
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surfaceScalarField | phiHbyA ("phiHbyA", fvc::interpolate(rho) *fvc::flux(HbyA)) |
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MRF | makeRelative (fvc::interpolate(rho), phiHbyA) |
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volScalarField | rhorAtU ("rhorAtU", rho *rAtU) |
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| constrainPressure (p, rho, U, phiHbyA, rhorAtU, MRF) |
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| if (simple.transonic()) |
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| while (simple.correctNonOrthogonal()) |
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p | relax () |
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U | correctBoundaryConditions () |
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fvOptions | correct (U) |
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| if (closedVolume) |
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| if (pLimited||closedVolume) |
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| if (!simple.transonic()) |
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◆ rAU()
volScalarField rAU |
( |
1.0/UEqn. |
A() | ) |
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◆ rAtU()
volScalarField rAtU |
( |
1.0/ |
1.0/rAU - UEqn.H1() | ) |
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◆ HbyA()
volVectorField HbyA |
( |
constrainHbyA(rAU *UEqn.H(), U, p) |
| ) |
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◆ clear()
◆ phiHbyA()
◆ makeRelative()
◆ rhorAtU()
volScalarField rhorAtU |
( |
"rhorAtU" |
, |
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rho * |
rAtU |
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) |
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◆ constrainPressure()
◆ if() [1/4]
if |
( |
simple. |
transonic() | ) |
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Definition at line 18 of file pcEqn.H.
References Foam::fac::div(), fvOptions, Foam::fac::grad(), HbyA, Foam::fac::interpolate(), Foam::fac::laplacian(), mesh, p, phi, phid(), phiHbyA, pressureControl, psi, rAtU(), rAU(), rho, rhorAtU(), simple, and Foam::fvc::snGrad().
◆ while()
while |
( |
simple. |
correctNonOrthogonal() | ) |
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Definition at line 67 of file pcEqn.H.
References Foam::fac::div(), fvOptions, Foam::fac::laplacian(), p, phi, phiHbyA, pressureControl, psi, rho, rhorAtU(), and simple.
◆ relax()
◆ correctBoundaryConditions()
U correctBoundaryConditions |
( |
| ) |
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◆ correct()
◆ if() [2/4]
◆ if() [3/4]
◆ if() [4/4]
if |
( |
!simple. |
transonic() | ) |
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◆ rho
◆ closedVolume
bool closedVolume = false |
◆ else
Initial value:{
bool adjustPhi(surfaceScalarField &phi, const volVectorField &U, volScalarField &p)
Adjust the balance of fluxes to obey continuity.
Definition at line 61 of file pcEqn.H.
◆ phiHbyA
◆ HbyA
◆ pLimited