Element-wise calculation of the residual and its derivatives for a two-phase, incompressible test problem. More...

#include <dumux/porousmediumflow/2p/incompressiblelocalresidual.hh>

Inheritance diagram for Dumux::TwoPIncompressibleLocalResidual< TypeTag >:

Description

template<class TypeTag>
class Dumux::TwoPIncompressibleLocalResidual< TypeTag >

Element-wise calculation of the residual and its derivatives for a two-phase, incompressible test problem.

Public Member Functions
template<class PartialDerivativeMatrix >
void	addStorageDerivatives (PartialDerivativeMatrix &partialDerivatives, const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const VolumeVariables &curVolVars, const SubControlVolume &scv) const
	Adds storage derivatives for wetting and non-wetting phase. More...

template<class PartialDerivativeMatrix >
void	addSourceDerivatives (PartialDerivativeMatrix &partialDerivatives, const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const VolumeVariables &curVolVars, const SubControlVolume &scv) const
	Adds source derivatives for wetting and non-wetting phase. More...

template<class PartialDerivativeMatrices , class T = TypeTag>
std::enable_if_t< GetPropType< T, Properties::GridGeometry >::discMethod==DiscretizationMethod::cctpfa, void >	addFluxDerivatives (PartialDerivativeMatrices &derivativeMatrices, const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const ElementVolumeVariables &curElemVolVars, const ElementFluxVariablesCache &elemFluxVarsCache, const SubControlVolumeFace &scvf) const
	Adds flux derivatives for wetting and non-wetting phase for cell-centered FVM using TPFA. More...

template<class JacobianMatrix , class T = TypeTag>
std::enable_if_t< GetPropType< T, Properties::GridGeometry >::discMethod==DiscretizationMethod::box, void >	addFluxDerivatives (JacobianMatrix &A, const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const ElementVolumeVariables &curElemVolVars, const ElementFluxVariablesCache &elemFluxVarsCache, const SubControlVolumeFace &scvf) const
	Adds flux derivatives for wetting and non-wetting phase for box method. More...

template<class PartialDerivativeMatrices >
void	addCCDirichletFluxDerivatives (PartialDerivativeMatrices &derivativeMatrices, const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const ElementVolumeVariables &curElemVolVars, const ElementFluxVariablesCache &elemFluxVarsCache, const SubControlVolumeFace &scvf) const
	Adds cell-centered Dirichlet flux derivatives for wetting and non-wetting phase. More...

template<class PartialDerivativeMatrices >
void	addRobinFluxDerivatives (PartialDerivativeMatrices &derivativeMatrices, const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const ElementVolumeVariables &curElemVolVars, const ElementFluxVariablesCache &elemFluxVarsCache, const SubControlVolumeFace &scvf) const
	Adds Robin flux derivatives for wetting and non-wetting phase. More...

NumEqVector	computeStorage (const Problem &problem, const SubControlVolume &scv, const VolumeVariables &volVars) const
	Evaluatex the rate of change of all conservation quantites (e.g. phase mass) within a sub-control volume of a finite volume element for the immiscible models. More...

NumEqVector	computeFlux (const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const ElementVolumeVariables &elemVolVars, const SubControlVolumeFace &scvf, const ElementFluxVariablesCache &elemFluxVarsCache) const
	Evaluatex the mass flux over a face of a sub control volume. More...

Member Function Documentation

◆ addCCDirichletFluxDerivatives()

template<class TypeTag >

template<class PartialDerivativeMatrices >

void Dumux::TwoPIncompressibleLocalResidual< TypeTag >::addCCDirichletFluxDerivatives	(	PartialDerivativeMatrices &	derivativeMatrices,
		const Problem &	problem,
		const Element &	element,
		const FVElementGeometry &	fvGeometry,
		const ElementVolumeVariables &	curElemVolVars,
		const ElementFluxVariablesCache &	elemFluxVarsCache,
		const SubControlVolumeFace &	scvf
	)		const

inline

Adds cell-centered Dirichlet flux derivatives for wetting and non-wetting phase.

Compute derivatives for the wetting and the non-wetting phase flux with respect to \(p_w\) and \(S_n\).

Parameters

derivativeMatrices	The matrices containing the derivatives
problem	The problem
element	The element
fvGeometry	The finite volume element geometry
curElemVolVars	The current element volume variables
elemFluxVarsCache	The element flux variables cache
scvf	The sub control volume face

◆ addFluxDerivatives() [1/2]

template<class TypeTag >

template<class JacobianMatrix , class T = TypeTag>

std::enable_if_t< GetPropType< T, Properties::GridGeometry >::discMethod==DiscretizationMethod::box, void > Dumux::TwoPIncompressibleLocalResidual< TypeTag >::addFluxDerivatives	(	JacobianMatrix &	A,
		const Problem &	problem,
		const Element &	element,
		const FVElementGeometry &	fvGeometry,
		const ElementVolumeVariables &	curElemVolVars,
		const ElementFluxVariablesCache &	elemFluxVarsCache,
		const SubControlVolumeFace &	scvf
	)		const

inline

Adds flux derivatives for wetting and non-wetting phase for box method.

Compute derivatives for the wetting and the non-wetting phase flux with respect to \(p_w\) and \(S_n\).

Parameters

A	The Jacobian Matrix
problem	The problem
element	The element
fvGeometry	The finite volume element geometry
curElemVolVars	The current element volume variables
elemFluxVarsCache	The element flux variables cache
scvf	The sub control volume face

◆ addFluxDerivatives() [2/2]

template<class TypeTag >

template<class PartialDerivativeMatrices , class T = TypeTag>

std::enable_if_t< GetPropType< T, Properties::GridGeometry >::discMethod==DiscretizationMethod::cctpfa, void > Dumux::TwoPIncompressibleLocalResidual< TypeTag >::addFluxDerivatives	(	PartialDerivativeMatrices &	derivativeMatrices,
		const Problem &	problem,
		const Element &	element,
		const FVElementGeometry &	fvGeometry,
		const ElementVolumeVariables &	curElemVolVars,
		const ElementFluxVariablesCache &	elemFluxVarsCache,
		const SubControlVolumeFace &	scvf
	)		const

inline

Adds flux derivatives for wetting and non-wetting phase for cell-centered FVM using TPFA.

Compute derivatives for the wetting and the non-wetting phase flux with respect to \(p_w\) and \(S_n\).

Parameters

derivativeMatrices	The partial derivatives
problem	The problem
element	The element
fvGeometry	The finite volume element geometry
curElemVolVars	The current element volume variables
elemFluxVarsCache	The element flux variables cache
scvf	The sub control volume face

◆ addRobinFluxDerivatives()

template<class TypeTag >

template<class PartialDerivativeMatrices >

void Dumux::TwoPIncompressibleLocalResidual< TypeTag >::addRobinFluxDerivatives	(	PartialDerivativeMatrices &	derivativeMatrices,
		const Problem &	problem,
		const Element &	element,
		const FVElementGeometry &	fvGeometry,
		const ElementVolumeVariables &	curElemVolVars,
		const ElementFluxVariablesCache &	elemFluxVarsCache,
		const SubControlVolumeFace &	scvf
	)		const

inline

Adds Robin flux derivatives for wetting and non-wetting phase.

Parameters

derivativeMatrices	The matrices containing the derivatives
problem	The problem
element	The element
fvGeometry	The finite volume element geometry
curElemVolVars	The current element volume variables
elemFluxVarsCache	The element flux variables cache
scvf	The sub control volume face

◆ addSourceDerivatives()

template<class TypeTag >

template<class PartialDerivativeMatrix >

void Dumux::TwoPIncompressibleLocalResidual< TypeTag >::addSourceDerivatives	(	PartialDerivativeMatrix &	partialDerivatives,
		const Problem &	problem,
		const Element &	element,
		const FVElementGeometry &	fvGeometry,
		const VolumeVariables &	curVolVars,
		const SubControlVolume &	scv
	)		const

inline

Adds source derivatives for wetting and non-wetting phase.

Parameters

partialDerivatives	The partial derivatives
problem	The problem
element	The element
fvGeometry	The finite volume element geometry
curVolVars	The current volume variables
scv	The sub control volume

◆ addStorageDerivatives()

template<class TypeTag >

template<class PartialDerivativeMatrix >

void Dumux::TwoPIncompressibleLocalResidual< TypeTag >::addStorageDerivatives	(	PartialDerivativeMatrix &	partialDerivatives,
		const Problem &	problem,
		const Element &	element,
		const FVElementGeometry &	fvGeometry,
		const VolumeVariables &	curVolVars,
		const SubControlVolume &	scv
	)		const

inline

Adds storage derivatives for wetting and non-wetting phase.

Compute storage derivatives for the wetting and the non-wetting phase with respect to \(p_w\) and \(S_n\).

Parameters

partialDerivatives	The partial derivatives
problem	The problem
element	The element
fvGeometry	The finite volume element geometry
curVolVars	The current volume variables
scv	The sub control volume

◆ computeFlux()

template<class TypeTag >

NumEqVector Dumux::ImmiscibleLocalResidual< TypeTag >::computeFlux	(	const Problem &	problem,
		const Element &	element,
		const FVElementGeometry &	fvGeometry,
		const ElementVolumeVariables &	elemVolVars,
		const SubControlVolumeFace &	scvf,
		const ElementFluxVariablesCache &	elemFluxVarsCache
	)		const

inlineinherited

Evaluatex the mass flux over a face of a sub control volume.

Parameters

problem	The problem
element	The element
fvGeometry	The finite volume geometry context
elemVolVars	The volume variables for all flux stencil elements
scvf	The sub control volume face to compute the flux on
elemFluxVarsCache	The cache related to flux computation

Add advective phase energy fluxes. For isothermal model the contribution is zero.

Add diffusive energy fluxes. For isothermal model the contribution is zero.

◆ computeStorage()

template<class TypeTag >

NumEqVector Dumux::ImmiscibleLocalResidual< TypeTag >::computeStorage	(	const Problem &	problem,
		const SubControlVolume &	scv,
		const VolumeVariables &	volVars
	)		const

inlineinherited

Evaluatex the rate of change of all conservation quantites (e.g. phase mass) within a sub-control volume of a finite volume element for the immiscible models.

Parameters

problem	TODO docme!
scv	The sub control volume
volVars	The current or previous volVars

Note: This function should not include the source and sink terms.; The volVars can be different to allow computing the implicit euler time derivative here

The energy storage in the fluid phase with index phaseIdx

The energy storage in the solid matrix

The documentation for this class was generated from the following file:

2p/incompressiblelocalresidual.hh

Description

Public Member Functions

Member Function Documentation

◆ addCCDirichletFluxDerivatives()

◆ addFluxDerivatives() [1/2]

◆ addFluxDerivatives() [2/2]

◆ addRobinFluxDerivatives()

◆ addSourceDerivatives()

◆ addStorageDerivatives()

◆ computeFlux()

◆ computeStorage()