Dumux::FVPorousMediumFlowSpatialParamsOneP< GridGeometry, Scalar, Implementation > Class Template Reference

The base class for spatial parameters of single-phase problems. More...

#include <dumux/porousmediumflow/fvspatialparams1p.hh>

Inheritance diagram for Dumux::FVPorousMediumFlowSpatialParamsOneP< GridGeometry, Scalar, Implementation >:

Description

template<class GridGeometry, class Scalar, class Implementation>
class Dumux::FVPorousMediumFlowSpatialParamsOneP< GridGeometry, Scalar, Implementation >

The base class for spatial parameters of single-phase problems.

Public Member Functions
template<class ElementSolution >
decltype(auto)	permeability (const Element &element, const SubControlVolume &scv, const ElementSolution &elemSol) const
	Function for defining the (intrinsic) permeability \([m^2]\). More...
Scalar	beaversJosephCoeffAtPos (const GlobalPosition &globalPos) const
	Function for defining the Beavers-Joseph coefficient for multidomain problems \(\mathrm{[-]}\). More...
Scalar	forchCoeff (const SubControlVolumeFace &scvf) const
	Apply the Forchheimer coefficient for inertial forces calculation. More...
template<class ElementSolution >
Scalar	porosity (const Element &element, const SubControlVolume &scv, const ElementSolution &elemSol) const
	Function for defining the porosity. That is possibly solution dependent. More...
template<class SolidSystem , class ElementSolution , typename std::enable_if_t< SolidSystem::isInert() &&SolidSystem::numInertComponents==1 &&!decltype(isValid(Detail::hasInertVolumeFractionAtPos< GlobalPosition, SolidSystem >())(std::declval< Implementation >()))::value, int > = 0>
Scalar	inertVolumeFraction (const Element &element, const SubControlVolume &scv, const ElementSolution &elemSol, int compIdx) const
	Function for defining the solid volume fraction. That is possibly solution dependent. More...
template<class SolidSystem , class ElementSolution , typename std::enable_if_t< SolidSystem::numInertComponents==0, int > = 0>
Scalar	inertVolumeFraction (const Element &element, const SubControlVolume &scv, const ElementSolution &elemSol, int compIdx) const
template<class SolidSystem , class ElementSolution , typename std::enable_if_t<(SolidSystem::numInertComponents > 1)||((SolidSystem::numInertComponents > 0) &&(!SolidSystem::isInert()||decltype(isValid(Detail::hasInertVolumeFractionAtPos< GlobalPosition, SolidSystem >())(std::declval< Implementation >()))::value)), int > = 0>
Scalar	inertVolumeFraction (const Element &element, const SubControlVolume &scv, const ElementSolution &elemSol, int compIdx) const
template<class ElementSolution >
Scalar	extrusionFactor (const Element &element, const SubControlVolume &scv, const ElementSolution &elemSol) const
	Return how much the domain is extruded at a given sub-control volume. More...
Scalar	extrusionFactorAtPos (const GlobalPosition &globalPos) const
	Return how much the domain is extruded at a given position. More...
template<class ElementSolution >
Scalar	temperature (const Element &element, const SubControlVolume &scv, const ElementSolution &elemSol) const
	Return the temperature in the given sub-control volume. More...
Scalar	temperatureAtPos (const GlobalPosition &globalPos) const
	Return the temperature in the domain at the given position. More...
const GravityVector &	gravity (const GlobalPosition &pos) const
	Returns the acceleration due to gravity \(\mathrm{[m/s^2]}\). More...
const GridGeometry &	gridGeometry () const
	The finite volume grid geometry. More...

Static Public Member Functions
static constexpr bool	evaluatePermeabilityAtScvfIP ()
	If the permeability should be evaluated directly at the scvf integration point (for convergence tests with analytical and continuous perm functions) or is evaluated at the scvs (for permeability fields with discontinuities) -> default. More...

Protected Member Functions
Implementation &	asImp_ ()
	Returns the implementation of the spatial parameters (static polymorphism) More...
const Implementation &	asImp_ () const
	Returns the implementation of the spatial parameters (static polymorphism) More...

Member Function Documentation

asImp_() [1/2]

template<class GridGeometry , class Scalar , class Implementation >

Implementation & Dumux::FVSpatialParams< GridGeometry, Scalar, Implementation >::asImp_ ( )

inlineprotectedinherited

Returns the implementation of the spatial parameters (static polymorphism)

asImp_() [2/2]

template<class GridGeometry , class Scalar , class Implementation >

const Implementation & Dumux::FVSpatialParams< GridGeometry, Scalar, Implementation >::asImp_ ( ) const

inlineprotectedinherited

Returns the implementation of the spatial parameters (static polymorphism)

beaversJosephCoeffAtPos()

template<class GridGeometry , class Scalar , class Implementation >

Scalar Dumux::FVPorousMediumFlowSpatialParams< GridGeometry, Scalar, Implementation >::beaversJosephCoeffAtPos ( const GlobalPosition &  globalPos ) const

inlineinherited

Function for defining the Beavers-Joseph coefficient for multidomain problems \(\mathrm{[-]}\).

Returns

Beavers-Joseph coefficient \(\mathrm{[-]}\)

Parameters

globalPos

The global position

evaluatePermeabilityAtScvfIP()

template<class GridGeometry , class Scalar , class Implementation >

static constexpr bool Dumux::FVPorousMediumFlowSpatialParams< GridGeometry, Scalar, Implementation >::evaluatePermeabilityAtScvfIP ( )

inlinestaticconstexprinherited

If the permeability should be evaluated directly at the scvf integration point (for convergence tests with analytical and continuous perm functions) or is evaluated at the scvs (for permeability fields with discontinuities) -> default.

extrusionFactor()

template<class GridGeometry , class Scalar , class Implementation >

template<class ElementSolution >

Scalar Dumux::FVSpatialParams< GridGeometry, Scalar, Implementation >::extrusionFactor ( const Element &  element, const SubControlVolume &  scv, const ElementSolution &  elemSol  ) const

inlineinherited

Return how much the domain is extruded at a given sub-control volume.

This means the factor by which a lower-dimensional (1D or 2D) entity needs to be expanded to get a full dimensional cell. The default is 1.0 which means that 1D problems are actually thought as pipes with a cross section of 1 m^2 and 2D problems are assumed to extend 1 m to the back.

extrusionFactorAtPos()

template<class GridGeometry , class Scalar , class Implementation >

Scalar Dumux::FVSpatialParams< GridGeometry, Scalar, Implementation >::extrusionFactorAtPos ( const GlobalPosition &  globalPos ) const

inlineinherited

Return how much the domain is extruded at a given position.

forchCoeff()

template<class GridGeometry , class Scalar , class Implementation >

Scalar Dumux::FVPorousMediumFlowSpatialParams< GridGeometry, Scalar, Implementation >::forchCoeff ( const SubControlVolumeFace &  scvf ) const

inlineinherited

Apply the Forchheimer coefficient for inertial forces calculation.

Parameters

scvf	The sub-control volume face where the intrinsic velocity ought to be calculated.

gravity()

template<class GridGeometry , class Scalar , class Implementation >

const GravityVector & Dumux::FVSpatialParams< GridGeometry, Scalar, Implementation >::gravity ( const GlobalPosition &  pos ) const

inlineinherited

Returns the acceleration due to gravity \(\mathrm{[m/s^2]}\).

The default behaviour is a constant gravity vector; if the Problem.EnableGravity parameter is true, \(\boldsymbol{g} = ( 0,\dots,\ -9.81)^T \), else \(\boldsymbol{g} = ( 0,\dots, 0)^T \).

Parameters

pos	the spatial position at which to evaluate the gravity vector

gridGeometry()

template<class GridGeometry , class Scalar , class Implementation >

const GridGeometry & Dumux::FVSpatialParams< GridGeometry, Scalar, Implementation >::gridGeometry ( ) const

inlineinherited

The finite volume grid geometry.

inertVolumeFraction() [1/3]

template<class GridGeometry , class Scalar , class Implementation >

template<class SolidSystem , class ElementSolution , typename std::enable_if_t< SolidSystem::isInert() &&SolidSystem::numInertComponents==1 &&!decltype(isValid(Detail::hasInertVolumeFractionAtPos< GlobalPosition, SolidSystem >())(std::declval< Implementation >()))::value, int > = 0>

Scalar Dumux::FVPorousMediumSpatialParams< GridGeometry, Scalar, Implementation >::inertVolumeFraction ( const Element &  element, const SubControlVolume &  scv, const ElementSolution &  elemSol, int  compIdx  ) const

inlineinherited

Function for defining the solid volume fraction. That is possibly solution dependent.

Parameters

element	The current element
scv	The sub-control volume inside the element.
elemSol	The solution at the dofs connected to the element.
compIdx	The solid component index

Returns

the volume fraction of the inert solid component with index compIdx

Note

this overload is enable if there is only one inert solid component and the user didn't choose to implement a inertVolumeFractionAtPos overload. It then forwards to the simpler porosity interface. With more than one solid components or active solid components (i.e. dissolution) please overload the more general inertVolumeFraction/inertVolumeFractionAtPos interface.

inertVolumeFraction() [2/3]

template<class GridGeometry , class Scalar , class Implementation >

template<class SolidSystem , class ElementSolution , typename std::enable_if_t< SolidSystem::numInertComponents==0, int > = 0>

Scalar Dumux::FVPorousMediumSpatialParams< GridGeometry, Scalar, Implementation >::inertVolumeFraction ( const Element &  element, const SubControlVolume &  scv, const ElementSolution &  elemSol, int  compIdx  ) const

inlineinherited

inertVolumeFraction() [3/3]

template<class GridGeometry , class Scalar , class Implementation >

template<class SolidSystem , class ElementSolution , typename std::enable_if_t<(SolidSystem::numInertComponents > 1)||((SolidSystem::numInertComponents > 0) &&(!SolidSystem::isInert()||decltype(isValid(Detail::hasInertVolumeFractionAtPos< GlobalPosition, SolidSystem >())(std::declval< Implementation >()))::value)), int > = 0>

Scalar Dumux::FVPorousMediumSpatialParams< GridGeometry, Scalar, Implementation >::inertVolumeFraction ( const Element &  element, const SubControlVolume &  scv, const ElementSolution &  elemSol, int  compIdx  ) const

inlineinherited

permeability()

template<class GridGeometry , class Scalar , class Implementation >

template<class ElementSolution >

decltype(auto) Dumux::FVPorousMediumFlowSpatialParams< GridGeometry, Scalar, Implementation >::permeability ( const Element &  element, const SubControlVolume &  scv, const ElementSolution &  elemSol  ) const

inlineinherited

Function for defining the (intrinsic) permeability \([m^2]\).

Note

It is possibly solution dependent.

Parameters

element	The current element
scv	The sub-control volume inside the element.
elemSol	The solution at the dofs connected to the element.

Returns

permeability

porosity()

template<class GridGeometry , class Scalar , class Implementation >

template<class ElementSolution >

Scalar Dumux::FVPorousMediumSpatialParams< GridGeometry, Scalar, Implementation >::porosity ( const Element &  element, const SubControlVolume &  scv, const ElementSolution &  elemSol  ) const

inlineinherited

Function for defining the porosity. That is possibly solution dependent.

Note

this can only be used for solids with one inert component (see inertVolumeFraction for the more general interface)

Parameters

element	The current element
scv	The sub-control volume inside the element.
elemSol	The solution at the dofs connected to the element.

Returns

the porosity

temperature()

template<class GridGeometry , class Scalar , class Implementation >

template<class ElementSolution >

Scalar Dumux::FVSpatialParams< GridGeometry, Scalar, Implementation >::temperature ( const Element &  element, const SubControlVolume &  scv, const ElementSolution &  elemSol  ) const

inlineinherited

Return the temperature in the given sub-control volume.

temperatureAtPos()

template<class GridGeometry , class Scalar , class Implementation >

Scalar Dumux::FVSpatialParams< GridGeometry, Scalar, Implementation >::temperatureAtPos ( const GlobalPosition &  globalPos ) const

inlineinherited

Return the temperature in the domain at the given position.

Parameters

globalPos

The position in global coordinates where the temperature should be specified.

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

• fvspatialparams1p.hh