pEqn.H
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1 rho = thermo.rho();
2 
3 volScalarField rAU(1.0/UEqn.A());
5 
6 volVectorField HbyA("HbyA", U);
7 HbyA = rAU*UEqn.H();
8 
9 if (pimple.transonic())
10 {
12  (
13  "phid",
15  *(
16  (
17  (fvc::interpolate(HbyA) & mesh.Sf())
19  )
20  )
21  );
22 
24  MRF.makeRelative(fvc::interpolate(psi), phid);
25 
26  while (pimple.correctNonOrthogonal())
27  {
28  fvScalarMatrix pEqn
29  (
30  fvm::ddt(psi, p)
31  + fvm::div(phid, p)
33  ==
34  fvOptions(psi, p, rho.name())
35  );
36 
37  pEqn.solve(mesh.solver(p.select(pimple.finalInnerIter())));
38 
39  if (pimple.finalNonOrthogonalIter())
40  {
41  phi == pEqn.flux();
42  }
43  }
44 }
45 else
46 {
48  (
49  "phiHbyA",
50  (
51  (fvc::interpolate(rho*HbyA) & mesh.Sf())
53  )
54  );
55 
56  fvc::makeRelative(phiHbyA, rho, U);
57  MRF.makeRelative(fvc::interpolate(rho), phiHbyA);
58 
59  while (pimple.correctNonOrthogonal())
60  {
61  fvScalarMatrix pEqn
62  (
63  fvm::ddt(psi, p)
64  + fvc::div(phiHbyA)
66  ==
67  fvOptions(psi, p, rho.name())
68  );
69 
70  pEqn.solve(mesh.solver(p.select(pimple.finalInnerIter())));
71 
72  if (pimple.finalNonOrthogonalIter())
73  {
74  phi = phiHbyA + pEqn.flux();
75  }
76  }
77 }
78 
79 #include "rhoEqn.H"
80 #include "compressibleContinuityErrs.H"
81 
82 U = HbyA - rAU*fvc::grad(p);
83 U.correctBoundaryConditions();
84 fvOptions.correct(U);
85 K = 0.5*magSqr(U);
86 
87 {
89  surfaceVectorField n(mesh.Sf()/mesh.magSf());
90  rhoUf += n*(fvc::absolute(phi, rho, U)/mesh.magSf() - (n & rhoUf));
91 }
92 
93 if (thermo.dpdt())
94 {
96 }
volScalarField & dpdt
phi
Definition: pEqn.H:20
CGAL::Exact_predicates_exact_constructions_kernel K
dimensioned< scalar > magSqr(const dimensioned< Type > &)
tmp< GeometricField< typename flux< Type >::type, fvsPatchField, surfaceMesh > > ddtCorr(const GeometricField< Type, fvPatchField, volMesh > &U, const GeometricField< Type, fvsPatchField, surfaceMesh > &Uf)
Definition: fvcDdt.C:155
tmp< GeometricField< Type, fvPatchField, volMesh > > laplacian(const GeometricField< Type, fvPatchField, volMesh > &vf, const word &name)
Definition: fvcLaplacian.C:45
tmp< surfaceScalarField > interpolate(const RhoType &rho)
tmp< surfaceScalarField > meshPhi(const volVectorField &U)
Definition: fvcMeshPhi.C:33
tmp< GeometricField< Type, fvPatchField, volMesh > > ddt(const dimensioned< Type > dt, const fvMesh &mesh)
Definition: fvcDdt.C:45
dynamicFvMesh & mesh
const dictionary & pimple
p
Definition: pEqn.H:59
fv::IOoptionList & fvOptions
fvMatrix< scalar > fvScalarMatrix
Definition: fvMatricesFwd.H:42
rhoUf
Definition: pEqn.H:90
tmp< surfaceScalarField > absolute(const tmp< surfaceScalarField > &tphi, const volVectorField &U)
Return the given relative flux in absolute form.
Definition: fvcMeshPhi.C:187
IOMRFZoneList & MRF
fvVectorMatrix UEqn(fvm::ddt(rho, U)+fvm::div(phi, U)+turbulence->divDevRhoReff(U)==fvOptions(rho, U))
surfaceScalarField phid("phid", fvc::interpolate(psi)*( (mesh.Sf()&fvc::interpolate(HbyA)) +rhorAUf *fvc::ddtCorr(rho, U, phi)/fvc::interpolate(rho) ))
GeometricField< scalar, fvPatchField, volMesh > volScalarField
Definition: volFieldsFwd.H:52
GeometricField< scalar, fvsPatchField, surfaceMesh > surfaceScalarField
MRF makeRelative(fvc::interpolate(rho), phiHbyA)
surfaceScalarField rhorAUf("rhorAUf", fvc::interpolate(rho *rAU))
const volScalarField & psi
Definition: createFields.H:24
phiHbyA
Definition: pEqn.H:21
GeometricField< vector, fvPatchField, volMesh > volVectorField
Definition: volFieldsFwd.H:55
volScalarField rAU(1.0/UEqn.A())
surfaceVectorField n(mesh.Sf()/mesh.magSf())
tmp< GeometricField< Type, fvPatchField, volMesh > > div(const GeometricField< Type, fvsPatchField, surfaceMesh > &ssf)
Definition: fvcDiv.C:47
tmp< GeometricField< typename outerProduct< vector, Type >::type, fvPatchField, volMesh >> grad(const GeometricField< Type, fvsPatchField, surfaceMesh > &ssf)
Definition: fvcGrad.C:52
rho
Definition: pEqn.H:1
psiReactionThermo & thermo
Definition: createFields.H:32
GeometricField< vector, fvsPatchField, surfaceMesh > surfaceVectorField
U
Definition: pEqn.H:82
HbyA
Definition: pEqn.H:7