29 #include "surfaceInterpolate.H" 35 const dictionary&
dict,
36 const phaseInterface& interface
39 liftModel(dict, interface),
40 interface_(interface.modelCast<liftModel, dispersedPhaseInterface>())
virtual tmp< volVectorField > U() const =0
Return the velocity.
virtual tmp< volScalarField > rho() const =0
Return the density field.
const dispersedPhaseInterface interface_
Interface.
virtual tmp< surfaceScalarField > Ff() const
Return face lift force.
tmp< GeometricField< Type, fvPatchField, volMesh > > curl(const GeometricField< Type, fvPatchField, volMesh > &vf)
virtual tmp< volScalarField > Cl() const
Lift coefficient.
dispersedLiftModel(const dictionary &dict, const phaseInterface &interface)
Calculate the curl of the given volField by constructing the Hodge-dual of the symmetric part of the ...
Calculate the face-flux of the given field.
const phaseModel & continuous() const
Continuous phase.
const phaseModel & dispersed() const
Dispersed phase.
virtual tmp< volVectorField > F() const
Return lift force.
static tmp< GeometricField< Type, fvsPatchField, surfaceMesh > > interpolate(const GeometricField< Type, fvPatchField, volMesh > &tvf, const surfaceScalarField &faceFlux, Istream &schemeData)
Interpolate field onto faces using scheme given by Istream.
virtual ~dispersedLiftModel()
Destructor.
tmp< volVectorField > Ur() const
Relative velocity.
A class for managing temporary objects.
tmp< surfaceScalarField > flux(const volVectorField &vvf)
Return the face-flux field obtained from the given volVectorField.
virtual tmp< volVectorField > Fi() const
Return phase-intensive lift force.