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DUNE for Multi-{Phase, Component, Scale, Physics, ...} flow and transport in porous media
flux/staggered/freeflow/fickslaw.hh
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25#ifndef DUMUX_DISCRETIZATION_STAGGERED_FICKS_LAW_HH
26#define DUMUX_DISCRETIZATION_STAGGERED_FICKS_LAW_HH
27
28#include <numeric>
29#include <dune/common/fvector.hh>
30
33#include <dumux/common/math.hh>
34
40
41
42namespace Dumux {
43
44// forward declaration
45template<class TypeTag, class DiscretizationMethod, ReferenceSystemFormulation referenceSystem>
46class FicksLawImplementation;
47
52template <class TypeTag, ReferenceSystemFormulation referenceSystem>
53class FicksLawImplementation<TypeTag, DiscretizationMethods::Staggered, referenceSystem>
54{
57 using FVElementGeometry = typename GridGeometry::LocalView;
58 using SubControlVolumeFace = typename GridGeometry::SubControlVolumeFace;
59 using Extrusion = Extrusion_t<GridGeometry>;
61 using GridView = typename GridGeometry::GridView;
62 using Element = typename GridView::template Codim<0>::Entity;
64 using Indices = typename ModelTraits::Indices;
66
67 static constexpr int numComponents = ModelTraits::numFluidComponents();
68 static constexpr int numPhases = ModelTraits::numFluidPhases();
69
70 using NumEqVector = Dune::FieldVector<Scalar, numComponents>;
71
72 static_assert(ModelTraits::numFluidPhases() == 1, "Only one phase supported!");
73
74public:
76 // state the discretization method this implementation belongs to
77 static constexpr DiscretizationMethod discMethod{};
78
79 //return the reference system
81 { return referenceSystem; }
82
86
88
95 template<class Problem, class ElementVolumeVariables>
96 static NumEqVector flux(const Problem& problem,
97 const Element& element,
98 const FVElementGeometry& fvGeometry,
99 const ElementVolumeVariables& elemVolVars,
100 const SubControlVolumeFace &scvf)
101 {
102 NumEqVector flux(0.0);
103
104 // There is no diffusion over outflow boundaries (grad x == 0).
105 // We assume that if an outflow BC is set for the first transported component, this
106 // also holds for all other components.
107 if (scvf.boundary() && problem.boundaryTypes(element, scvf).isOutflow(Indices::conti0EqIdx + 1))
108 return flux;
109
110 const int phaseIdx = 0;
111
112 const auto& insideScv = fvGeometry.scv(scvf.insideScvIdx());
113 const auto& insideVolVars = elemVolVars[scvf.insideScvIdx()];
114 const auto& outsideVolVars = elemVolVars[scvf.outsideScvIdx()];
115
116 const Scalar insideDistance = (insideScv.dofPosition() - scvf.ipGlobal()).two_norm();
117 const Scalar insideDensity = massOrMolarDensity(insideVolVars, referenceSystem, phaseIdx);
118
119 for (int compIdx = 0; compIdx < numComponents; ++compIdx)
120 {
121 if (compIdx == FluidSystem::getMainComponent(phaseIdx))
122 continue;
123
124 const Scalar massOrMoleFractionInside = massOrMoleFraction(insideVolVars, referenceSystem, phaseIdx, compIdx);
125 const Scalar massOrMoleFractionOutside = massOrMoleFraction(outsideVolVars, referenceSystem, phaseIdx, compIdx);
126 const Scalar insideDiffCoeff = getEffectiveDiffusionCoefficient_(insideVolVars, phaseIdx, compIdx) * insideVolVars.extrusionFactor();
127
128 if (scvf.boundary())
129 {
130 flux[compIdx] = insideDensity * insideDiffCoeff
131 * (massOrMoleFractionInside - massOrMoleFractionOutside) / insideDistance;
132 }
133 else
134 {
135 const auto& outsideScv = fvGeometry.scv(scvf.outsideScvIdx());
136 const Scalar outsideDiffCoeff = getEffectiveDiffusionCoefficient_(outsideVolVars, phaseIdx, compIdx)
137 * outsideVolVars.extrusionFactor();
138 const Scalar outsideDistance = (outsideScv.dofPosition() - scvf.ipGlobal()).two_norm();
139 const Scalar outsideDensity = massOrMolarDensity(outsideVolVars, referenceSystem, phaseIdx);
140
141 const Scalar avgDensity = 0.5*(insideDensity + outsideDensity);
142 const Scalar avgDiffCoeff = harmonicMean(insideDiffCoeff, outsideDiffCoeff, insideDistance, outsideDistance);
143
144 flux[compIdx] = avgDensity * avgDiffCoeff
145 * (massOrMoleFractionInside - massOrMoleFractionOutside) / (insideDistance + outsideDistance);
146 }
147 }
148
149 // Fick's law (for binary systems) states that the net flux of mass within the bulk phase has to be zero:
150 const Scalar cumulativeFlux = std::accumulate(flux.begin(), flux.end(), 0.0);
151 flux[FluidSystem::getMainComponent(0)] = -cumulativeFlux;
152
153 flux *= Extrusion::area(fvGeometry, scvf);
154
155 return flux;
156 }
157
158private:
159 static Scalar getEffectiveDiffusionCoefficient_(const VolumeVariables& volVars, const int phaseIdx, const int compIdx)
160 {
161 return volVars.effectiveDiffusionCoefficient(phaseIdx, FluidSystem::getMainComponent(phaseIdx), compIdx);
162 }
163};
164} // end namespace Dumux
165
166#endif
The infrastructure to retrieve run-time parameters from Dune::ParameterTrees.
Define some often used mathematical functions.
Helper classes to compute the integration elements.
The available discretization methods in Dumux.
The reference frameworks and formulations available for splitting total fluxes into a advective and d...
Classes related to flux variables caching.
Container storing the diffusion coefficients required by Fick's law. Uses the minimal possible contai...
VolumeVariables::PrimaryVariables::value_type massOrMoleFraction(const VolumeVariables &volVars, ReferenceSystemFormulation referenceSys, const int phaseIdx, const int compIdx)
returns the mass or mole fraction to be used in Fick's law based on the reference system
Definition: referencesystemformulation.hh:66
VolumeVariables::PrimaryVariables::value_type massOrMolarDensity(const VolumeVariables &volVars, ReferenceSystemFormulation referenceSys, const int phaseIdx)
evaluates the density to be used in Fick's law based on the reference system
Definition: referencesystemformulation.hh:55
ReferenceSystemFormulation
The formulations available for Fick's law related to the reference system.
Definition: referencesystemformulation.hh:45
constexpr Scalar harmonicMean(Scalar x, Scalar y, Scalar wx=1.0, Scalar wy=1.0) noexcept
Calculate the (weighted) harmonic mean of two scalar values.
Definition: math.hh:69
Adaption of the non-isothermal two-phase two-component flow model to problems with CO2.
Definition: adapt.hh:29
typename Extrusion< T >::type Extrusion_t
Convenience alias for obtaining the extrusion type.
Definition: extrusion.hh:251
typename GetProp< TypeTag, Property >::type GetPropType
get the type alias defined in the property
Definition: propertysystem.hh:180
forward declaration of the method-specific implementation
Definition: flux/box/fickslaw.hh:44
Container storing the diffusion coefficients required by Fick's law. Uses the minimal possible contai...
Definition: fickiandiffusioncoefficients.hh:44
Definition: fluxvariablescaching.hh:67
static NumEqVector flux(const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const ElementVolumeVariables &elemVolVars, const SubControlVolumeFace &scvf)
Returns the diffusive fluxes of all components within a fluid phase across the given sub-control volu...
Definition: flux/staggered/freeflow/fickslaw.hh:96
static constexpr ReferenceSystemFormulation referenceSystemFormulation()
Definition: flux/staggered/freeflow/fickslaw.hh:80
Declares all properties used in Dumux.