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========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration |
\\ / A nd | Copyright (C) 1991-2010 OpenCFD Ltd.
\\/ M anipulation |
-------------------------------------------------------------------------------
License
This file is part of OpenFOAM.
OpenFOAM is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
OpenFOAM 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
along with OpenFOAM. If not, see <http://www.gnu.org/licenses/>.
Class
Foam::KinematicParcel
Description
Kinematic parcel class with one/two-way coupling with the continuous
phase.
Sub-models include:
- drag
- turbulent dispersion
- wall interactions
SourceFiles
KinematicParcelI.H
KinematicParcel.C
KinematicParcelIO.C
\*---------------------------------------------------------------------------*/
#ifndef KinematicParcel_H
#define KinematicParcel_H
#include <lagrangian/Particle.H>
#include <OpenFOAM/IOstream.H>
#include <OpenFOAM/autoPtr.H>
#include <finiteVolume/interpolationCellPoint.H>
#include <OpenFOAM/contiguous.H>
#include <lagrangianIntermediate/KinematicCloud_.H>
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
namespace Foam
{
template<class ParcelType>
class KinematicParcel;
// Forward declaration of friend functions
template<class ParcelType>
Ostream& operator<<
(
Ostream&,
const KinematicParcel<ParcelType>&
);
/*---------------------------------------------------------------------------*\
Class KinematicParcel Declaration
\*---------------------------------------------------------------------------*/
template<class ParcelType>
class KinematicParcel
:
public Particle<ParcelType>
{
public:
//- Class to hold kinematic particle constant properties
class constantProperties
{
// Private data
//- Constant properties dictionary
const dictionary dict_;
//- Minimum density [kg/m3]
const scalar rhoMin_;
//- Particle density [kg/m3] (constant)
const scalar rho0_;
//- Minimum particle mass [kg]
const scalar minParticleMass_;
public:
//- Constructor
constantProperties(const dictionary& parentDict);
// Member functions
//- Return const access to the constant properties dictionary
inline const dictionary& dict() const;
//- Return const access to the minimum density
inline scalar rhoMin() const;
//- Return const access to the particle density
inline scalar rho0() const;
//- Return const access to the minimum particle mass
inline scalar minParticleMass() const;
};
//- Class used to pass kinematic tracking data to the trackToFace function
class trackData
:
public Particle<ParcelType>::trackData
{
// Private data
//- Reference to the cloud containing this particle
KinematicCloud<ParcelType>& cloud_;
//- Particle constant properties
const constantProperties& constProps_;
// Interpolators for continuous phase fields
//- Density interpolator
const interpolation<scalar>& rhoInterp_;
//- Velocity interpolator
const interpolation<vector>& UInterp_;
//- Dynamic viscosity interpolator
const interpolation<scalar>& muInterp_;
//- Local gravitational or other body-force acceleration
const vector& g_;
public:
// Constructors
//- Construct from components
inline trackData
(
KinematicCloud<ParcelType>& cloud,
const constantProperties& constProps,
const interpolation<scalar>& rhoInterp,
const interpolation<vector>& UInterp,
const interpolation<scalar>& muInterp,
const vector& g
);
// Member functions
//- Return access to the owner cloud
inline KinematicCloud<ParcelType>& cloud();
//- Return const access to the constant properties
inline const constantProperties& constProps() const;
//- Return conat access to the interpolator for continuous
// phase density field
inline const interpolation<scalar>& rhoInterp() const;
//- Return conat access to the interpolator for continuous
// phase velocity field
inline const interpolation<vector>& UInterp() const;
//- Return conat access to the interpolator for continuous
// phase dynamic viscosity field
inline const interpolation<scalar>& muInterp() const;
// Return const access to the gravitational acceleration vector
inline const vector& g() const;
};
protected:
// Protected data
// Parcel properties
//- Active flag - tracking inactive when active = false
bool active_;
//- Parcel type id
label typeId_;
//- Number of particles in Parcel
scalar nParticle_;
//- Diameter [m]
scalar d_;
//- Velocity of Parcel [m/s]
vector U_;
//- Density [kg/m3]
scalar rho_;
//- Time spent in turbulent eddy [s]
scalar tTurb_;
//- Turbulent velocity fluctuation [m/s]
vector UTurb_;
// Cell-based quantities
//- Density [kg/m3]
scalar rhoc_;
//- Velocity [m/s]
vector Uc_;
//- Viscosity [Pa.s]
scalar muc_;
// Protected member functions
//- Calculate new particle velocity
template<class TrackData>
const vector calcVelocity
(
TrackData& td,
const scalar dt, // timestep
const label cellI, // owner cell
const scalar Re, // Reynolds number
const scalar mu, // local carrier viscosity
const scalar d, // diameter
const vector& U, // velocity
const scalar rho, // density
const scalar mass, // mass
const vector& Su, // explicit particle momentum source
vector& dUTrans // momentum transfer to carrier
) const;
public:
// Static data members
//- String representation of properties
static string propHeader;
//- Runtime type information
TypeName("KinematicParcel");
friend class Cloud<ParcelType>;
// Constructors
//- Construct from owner, position, and cloud owner
// Other properties initialised as null
inline KinematicParcel
(
KinematicCloud<ParcelType>& owner,
const vector& position,
const label cellI
);
//- Construct from components
inline KinematicParcel
(
KinematicCloud<ParcelType>& owner,
const vector& position,
const label cellI,
const label typeId,
const scalar nParticle0,
const scalar d0,
const vector& U0,
const constantProperties& constProps
);
//- Construct from Istream
KinematicParcel
(
const Cloud<ParcelType>& c,
Istream& is,
bool readFields = true
);
//- Construct as a copy
KinematicParcel(const KinematicParcel& p);
//- Construct and return a clone
autoPtr<KinematicParcel> clone() const
{
return autoPtr<KinematicParcel>(new KinematicParcel(*this));
}
// Member Functions
// Access
//- Return const access to active flag
inline bool active() const;
//- Return const access to type id
inline label typeId() const;
//- Return const access to number of particles
inline scalar nParticle() const;
//- Return const access to diameter
inline scalar d() const;
//- Return const access to velocity
inline const vector& U() const;
//- Return const access to density
inline scalar rho() const;
//- Return const access to time spent in turbulent eddy
inline scalar tTurb() const;
//- Return const access to turbulent velocity fluctuation
inline const vector& UTurb() const;
// Edit
//- Return const access to active flag
inline bool& active();
//- Return access to type id
inline label typeId();
//- Return access to number of particles
inline scalar& nParticle();
//- Return access to diameter
inline scalar& d();
//- Return access to velocity
inline vector& U();
//- Return access to density
inline scalar& rho();
//- Return access to time spent in turbulent eddy
inline scalar& tTurb();
//- Return access to turbulent velocity fluctuation
inline vector& UTurb();
// Helper functions
//- The nearest distance to a wall that
// the particle can be in the n direction
inline scalar wallImpactDistance(const vector& n) const;
//- Return the index of the face to be used in the interpolation
// routine
inline label faceInterpolation() const;
//- Cell owner mass
inline scalar massCell(const label cellI) const;
//- Particle mass
inline scalar mass() const;
//- Particle volume
inline scalar volume() const;
//- Particle volume for a given diameter
inline scalar volume(const scalar d) const;
//- Particle projected area
inline scalar areaP() const;
//- Projected area for given diameter
inline scalar areaP(const scalar d) const;
//- Particle surface area
inline scalar areaS() const;
//- Surface area for given diameter
inline scalar areaS(const scalar d) const;
//- Reynolds number
inline scalar Re
(
const vector& U, // particle velocity
const scalar d, // particle diameter
const scalar rhoc, // carrier density
const scalar muc // carrier dynamic viscosity
) const;
// Main calculation loop
//- Set cell values
template<class TrackData>
void setCellValues
(
TrackData& td,
const scalar dt,
const label cellI
);
//- Correct cell values using latest transfer information
template<class TrackData>
void cellValueSourceCorrection
(
TrackData& td,
const scalar dt,
const label cellI
);
//- Update parcel properties over the time interval
template<class TrackData>
void calc
(
TrackData& td,
const scalar dt,
const label cellI
);
// Tracking
//- Move the parcel
template<class TrackData>
bool move(TrackData& td);
// Patch interactions
//- Overridable function to handle the particle hitting a patch
// Executed before other patch-hitting functions
template<class TrackData>
bool hitPatch
(
const polyPatch& p,
TrackData& td,
const label patchI
);
//- Overridable function to handle the particle hitting a patch
// Executed before other patch-hitting functions without trackData
bool hitPatch
(
const polyPatch& p,
int& td,
const label patchI
);
//- Overridable function to handle the particle hitting a
// processorPatch
template<class TrackData>
void hitProcessorPatch
(
const processorPolyPatch&,
TrackData& td
);
//- Overridable function to handle the particle hitting a
// processorPatch without trackData
void hitProcessorPatch
(
const processorPolyPatch&,
int&
);
//- Overridable function to handle the particle hitting a wallPatch
template<class TrackData>
void hitWallPatch
(
const wallPolyPatch&,
TrackData& td
);
//- Overridable function to handle the particle hitting a wallPatch
// without trackData
void hitWallPatch
(
const wallPolyPatch&,
int&
);
//- Overridable function to handle the particle hitting a polyPatch
template<class TrackData>
void hitPatch
(
const polyPatch&,
TrackData& td
);
//- Overridable function to handle the particle hitting a polyPatch
//- without trackData
void hitPatch
(
const polyPatch&,
int&
);
//- Transform the physical properties of the particle
// according to the given transformation tensor
void transformProperties(const tensor& T);
//- Transform the physical properties of the particle
// according to the given separation vector
void transformProperties(const vector& separation);
// I-O
//- Read
static void readFields(Cloud<ParcelType>& c);
//- Write
static void writeFields(const Cloud<ParcelType>& c);
// Ostream Operator
friend Ostream& operator<< <ParcelType>
(
Ostream&,
const KinematicParcel<ParcelType>&
);
};
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
} // End namespace Foam
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#include <lagrangianIntermediate/KinematicParcelI.H>
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#define defineParcelTypeNameAndDebug(Type, DebugSwitch) \
template<> \
const Foam::word KinematicParcel<Type>::typeName(#Type); \
template<> \
int KinematicParcel<Type>::debug \
( \
Foam::debug::debugSwitch(#Type, DebugSwitch) \
);
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#ifdef NoRepository
#include <lagrangianIntermediate/KinematicParcel.C>
#endif
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#endif
// ************************ vim: set sw=4 sts=4 et: ************************ //
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