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foam-extend4.1-coherent-io/applications/solvers/surfaceTracking/freeSurface/freeSurface.H

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/*---------------------------------------------------------------------------*\
========= |
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\\ / F ield | foam-extend: Open Source CFD
2016-06-20 15:00:40 +00:00
\\ / O peration | Version: 4.0
\\ / A nd | Web: http://www.foam-extend.org
\\/ M anipulation | For copyright notice see file Copyright
-------------------------------------------------------------------------------
License
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This file is part of foam-extend.
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foam-extend is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
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Free Software Foundation, either version 3 of the License, or (at your
option) any later version.
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foam-extend is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
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along with foam-extend. If not, see <http://www.gnu.org/licenses/>.
Class
freeSurface
Description
Implementation of Free surface (interface) tracking method
based on moving mesh.
SourceFiles
freeSurface.C
freeSurfacePointDisplacement.C
makeFreeSurfaceData.C
\*---------------------------------------------------------------------------*/
#ifndef FreeSurface_H
#define FreeSurface_H
#include "fvCFD.H"
#include "IOdictionary.H"
#include "volFieldsFwd.H"
#include "surfaceFieldsFwd.H"
#include "faCFD.H"
#include "IOpatchToPatchInterpolation.H"
#include "dynamicFvMesh.H"
#include "surfactantProperties.H"
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
namespace Foam
{
/*---------------------------------------------------------------------------*\
Class freeSurface Declaration
\*---------------------------------------------------------------------------*/
class freeSurface
:
public IOdictionary
{
// Private data
//- Reference to fvMesh
dynamicFvMesh& mesh_;
//- Reference to density field
const volScalarField& rho_;
//- Reference to velocity field
volVectorField& U_;
//- Reference to pressure field
volScalarField& p_;
//- Reference to fluid flux field
const surfaceScalarField& phi_;
//- Current time index for free-surface
label curTimeIndex_;
//- Are there exist two fluids in the free-surface model
Switch twoFluids_;
//- Is it free-surface points displacement direction
// parallel with free-surface point normals
Switch normalMotionDir_;
//- Free-surface points displacement direction
// if not normal motion direction
vector motionDir_;
//- Is it free-surface clean of surfactant
Switch cleanInterface_;
//- ID of the fvMesh patch which represents
// A side of the free-surface
label aPatchID_;
//- ID of the fvMesh patch which represents
// B side of the free-surface
label bPatchID_;
//- Viscosity of fluid A
dimensionedScalar muFluidA_;
//- Viscosity of fluid B
dimensionedScalar muFluidB_;
//- Density of fluid A
dimensionedScalar rhoFluidA_;
//- Density of fluid B
dimensionedScalar rhoFluidB_;
//- Reference to gravitational acceleration
dimensionedVector g_;
//- Surface tension for the clean free-surface
dimensionedScalar cleanInterfaceSurfTension_;
//- Free surface patches which do not move
wordList fixedFreeSurfacePatches_;
//- Free surface patches for witch point normals
// must be corrected
wordList pointNormalsCorrectionPatches_;
//- Number of free-surface correctors
label nFreeSurfCorr_;
//- Interface smoothing at the begining of time step
Switch smoothing_;
// Demand-driven data
//- Patch to patch interpolation object which deals with
// interpolation of flow variables between two free-surface
// (interface) patches
mutable IOpatchToPatchInterpolation* interpolatorABPtr_;
//- Patch to patch interpolation object which deals with
// interpolation of flow variables between two free-surface
// (interface) patches
mutable IOpatchToPatchInterpolation* interpolatorBAPtr_;
//- Points which are attached to the free-surface A side faces
// and which defines the free-surface shape
mutable vectorIOField* controlPointsPtr_;
//- Field which additionally determines
// the motion of free-surface points
mutable labelList* motionPointsMaskPtr_;
//- Displacement direction of free-surface points
mutable vectorField* pointsDisplacementDirPtr_;
//- Displacement direction of free-surface control points
mutable vectorField* facesDisplacementDirPtr_;
//- Total displacement of free-surface points
// in one time step
mutable vectorIOField* totalDisplacementPtr_;
//- Finite area mesh which consists
// free-surface side A faces
mutable faMesh* aMeshPtr_;
//- Free-surface velocity field
mutable areaVectorField* UsPtr_;
//- Free-surface fluid flux
mutable edgeScalarField* phisPtr_;
//- Free-surface surfactant concetration
mutable areaScalarField* surfactConcPtr_;
//- Surface tension field
mutable areaScalarField* surfaceTensionPtr_;
//- Surfactant properties
mutable surfactantProperties* surfactantPtr_;
//- Fluid indicator
mutable volScalarField* fluidIndicatorPtr_;
// Private Member Functions
// Make demand-driven data
void makeInterpolators();
void makeControlPoints();
void makeMotionPointsMask();
void makeDirections();
void makeTotalDisplacement();
void readTotalDisplacement();
void makeFaMesh() const;
void makeUs() const;
void makePhis();
void makePhi();
void makeDdtPhi();
void makeSurfactConc() const;
void makeSurfaceTension() const;
void makeSurfactant() const;
void makeFluidIndicator();
//- Clear all demand-driven data
void clearOut();
//- Disallow default bitwise copy construct
freeSurface(const freeSurface&);
//- Disallow default bitwise assignment
void operator=(const freeSurface&);
//- Move control ponts for deltaH and calculate
// free surface points displacement
// for given new control points position
tmp<vectorField> pointDisplacement(const scalarField& deltaH);
// Calc least sqare plane point and normal
tmp<vectorField> lsPlanePointAndNormal
(
const vectorField& points,
const vector& origin,
const vector& axis
) const;
public:
// Declare name of the class and it's debug switch
ClassName("freeSurface");
// Constructors
freeSurface
(
dynamicFvMesh& m,
const volScalarField& rho,
volVectorField& Ub,
volScalarField& Pb,
const surfaceScalarField& phi
);
// Destructor
~freeSurface();
// Member Functions
//- Return reference to fvMesh
dynamicFvMesh& mesh()
{
return mesh_;
}
//- Return reference to fvMesh
const dynamicFvMesh& mesh() const
{
return mesh_;
}
//- Return reference to DB
const Time& DB() const
{
return U_.mesh().time();
}
//- Return reference to velocity field
const volScalarField& rho() const
{
return rho_;
}
//- Return reference to velocity field
volVectorField& U()
{
return U_;
}
//- Return reference to velocity field
const volVectorField& U() const
{
return U_;
}
//- Return reference to pressure field
volScalarField& p()
{
return p_;
}
//- Return reference to pressure field
const volScalarField& p() const
{
return p_;
}
//- Are there exist two fluid
// in the free-surface model
bool twoFluids() const
{
return twoFluids_;
}
//- Motion direction swithc
bool normalMotionDir() const
{
return normalMotionDir_;
}
//- Is it interface clean
bool cleanInterface() const
{
return cleanInterface_;
}
//- ID of patch which represent A side
// of free-surface
const label& aPatchID() const
{
return aPatchID_;
}
//- ID of patch which represent B side
// of free-surface
const label& bPatchID() const
{
return bPatchID_;
}
//- Viscosity of fluid A
const dimensionedScalar& muFluidA() const
{
return muFluidA_;
}
//- Viscosity of fluid B
const dimensionedScalar& muFluidB() const
{
return muFluidB_;
}
//- Density of fluid A
const dimensionedScalar& rhoFluidA() const
{
return rhoFluidA_;
}
//- Densiti of fluid B
const dimensionedScalar& rhoFluidB() const
{
return rhoFluidB_;
}
//- Gravity
const dimensionedVector& g() const
{
return g_;
}
//- Surface tension for clean interface
const dimensionedScalar& cleanInterfaceSurfTension() const
{
return cleanInterfaceSurfTension_;
}
//- Return reference to interpolator from free surface side A to
// free surface side B
const IOpatchToPatchInterpolation& interpolatorAB();
//- Return reference to interpolator from free surface side B to
// free surface side A
const IOpatchToPatchInterpolation& interpolatorBA();
//- Return control points
vectorField& controlPoints();
//- Return reference to motion points mask field
labelList& motionPointsMask();
//- Return reference to point displacement direction field
vectorField& pointsDisplacementDir();
//- Return reference to control points displacement direction field
vectorField& facesDisplacementDir();
//- Return total points displacement
vectorField& totalDisplacement();
//- Return reference to finite area mesh
faMesh& aMesh();
//- Return reference to finite area mesh
const faMesh& aMesh() const;
//- Return free-surface velocity field
areaVectorField& Us();
//- Return free-surface velocity field
const areaVectorField& Us() const;
//- Return free-surface fluid flux field
edgeScalarField& Phis();
//- Return free-surface surfactant concentration field
areaScalarField& surfactantConcentration();
//- Return free-surface surfactant concentration field
const areaScalarField& surfactantConcentration() const;
//- Return surface tension field
areaScalarField& surfaceTension();
//- Return surface tension field
const areaScalarField& surfaceTension() const;
//- Return surface tension gradient
tmp<areaVectorField> surfaceTensionGrad();
//- Return surfactant properties
const surfactantProperties& surfactant() const;
//- Return referenct to fluid indicator
const volScalarField& fluidIndicator();
//- Update control points end displacement directions
void updateDisplacementDirections();
//- Predict interface points position
bool predictPoints();
//- Correct interface points position
bool correctPoints();
//- Move only free-surface points
bool movePoints(const scalarField& interfacePHi);
//- Move mesh points for old time free-surface points displacement
bool moveMeshPointsForOldFreeSurfDisplacement();
//- Move mesh points
bool moveMeshPoints();
//- Update free-surface boundary conditions
void updateBoundaryConditions();
//- Correct free-surface pressure
void updatePressure();
//- Correct free-surface velocity
void updateVelocity();
//- Update free-surface flux
void updateSurfaceFlux();
//- Update free-surface surfactant concentration
void updateSurfactantConcentration();
//- Correct surface velocity boundary conditions
void correctUsBoundaryConditions();
//- Calculate total pressure force
vector totalPressureForce() const;
//- Calculate total viscous force
vector totalViscousForce() const;
//- Calculate total surface tension force
vector totalSurfaceTensionForce() const;
//- Calculate free-surface undulation indicator
tmp<scalarField> undulationIndicator();
//- Smooth free-surface
void smooth();
//- Chech free-surface faces flatness
tmp<scalarField> checkFaceFlatness();
//- Initialize control points position
void initializeControlPointsPosition();
//- Maximal surface tension based Courant number
scalar maxCourantNumber();
//- Update properties
void updateProperties();
//- Write VTK freeSurface mesh
void writeVTK() const;
//- Write VTK freeSurface control points
void writeVTKControlPoints();
};
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
} // End namespace Foam
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#endif
// ************************************************************************* //