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foam-extend4.1-coherent-io/applications/solvers/solidMechanics/icoFsiElasticNonLinULSolidFoam/moveFluidMesh.H
2014-06-01 20:12:52 +02:00

149 lines
4.5 KiB
C++

{
// Move fluid mesh
const vectorField& n =
mesh.boundaryMesh()[fluidPatchID].pointNormals();
primitivePatchInterpolation patchInterpolator
(
mesh.boundaryMesh()[fluidPatchID]
);
scalarField pointDeltaCoeffs =
patchInterpolator.faceToPointInterpolate
(
mesh.boundary()[fluidPatchID].deltaCoeffs()
);
scalar delta =
gMax
(
mag
(
n
& (
accumulatedFluidInterfaceDisplacement
+ fluidPatchPointsDispl
- fluidPatchPointsDisplOld
)
)
*pointDeltaCoeffs
);
Info << "Maximal accumulated displacement of interface points: "
<< delta << endl;
if(delta < interfaceDeformationLimit)
{
// Move only interface points
pointField newPoints = mesh.allPoints();
const labelList& meshPoints =
mesh.boundaryMesh()[fluidPatchID].meshPoints();
forAll (fluidPatchPointsDispl, pointI)
{
newPoints[meshPoints[pointI]] +=
fluidPatchPointsDispl[pointI]
- fluidPatchPointsDisplOld[pointI];
}
twoDPointCorrector twoDCorrector(mesh);
twoDCorrector.correctPoints(newPoints);
mesh.movePoints(newPoints);
// Accumulate interface points displacement
accumulatedFluidInterfaceDisplacement +=
fluidPatchPointsDispl
- fluidPatchPointsDisplOld;
}
else
{
// Move whole fluid mesh
pointField newPoints = mesh.allPoints();
const labelList& meshPoints =
mesh.boundaryMesh()[fluidPatchID].meshPoints();
forAll (accumulatedFluidInterfaceDisplacement, pointI)
{
newPoints[meshPoints[pointI]] -=
accumulatedFluidInterfaceDisplacement[pointI];
}
twoDPointCorrector twoDCorrector(mesh);
twoDCorrector.correctPoints(newPoints);
mesh.movePoints(newPoints);
accumulatedFluidInterfaceDisplacement +=
fluidPatchPointsDispl
- fluidPatchPointsDisplOld;
if (feMotionSolver)
{
tetPointVectorField& motionU =
const_cast<tetPointVectorField&>
(
mesh.objectRegistry::
lookupObject<tetPointVectorField>
(
"motionU"
)
);
fixedValueTetPolyPatchVectorField& motionUFluidPatch =
refCast<fixedValueTetPolyPatchVectorField>
(
motionU.boundaryField()[fluidPatchID]
);
tetPolyPatchInterpolation tppi
(
refCast<const faceTetPolyPatch>(motionUFluidPatch.patch())
);
motionUFluidPatch ==
tppi.pointToPointInterpolate
(
accumulatedFluidInterfaceDisplacement
/runTime.deltaT().value()
);
}
else if (fvMotionSolver)
{
pointVectorField& motionU =
const_cast<pointVectorField&>
(
mesh.objectRegistry::
lookupObject<pointVectorField>
(
"pointMotionU"
)
);
fixedValuePointPatchVectorField& motionUFluidPatch =
refCast<fixedValuePointPatchVectorField>
(
motionU.boundaryField()[fluidPatchID]
);
motionUFluidPatch ==
accumulatedFluidInterfaceDisplacement
/runTime.deltaT().value();
}
else
{
FatalErrorIn(args.executable())
<< "Problem with mesh motion solver selection"
<< abort(FatalError);
}
mesh.update();
accumulatedFluidInterfaceDisplacement = vector::zero;
}
}