version 3.10-dev
transmissibility1p.hh
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1// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
2// vi: set et ts=4 sw=4 sts=4:
3//
4// SPDX-FileCopyrightInfo: Copyright © DuMux Project contributors, see AUTHORS.md in root folder
5// SPDX-License-Identifier: GPL-3.0-or-later
6//
13#ifndef DUMUX_PNM_THROAT_TRANSMISSIBILITY_1P_HH
14#define DUMUX_PNM_THROAT_TRANSMISSIBILITY_1P_HH
15
18#include "emptycache.hh"
19
20namespace Dumux::PoreNetwork {
21
29template<class Scalar>
31{
32public:
33
35
36 template<class Problem, class Element, class FVElementGeometry, class ElementVolumeVariables, class FluxVariablesCache>
37 static Scalar singlePhaseTransmissibility(const Problem& problem,
38 const Element& element,
39 const FVElementGeometry& fvGeometry,
40 const typename FVElementGeometry::SubControlVolumeFace& scvf,
41 const ElementVolumeVariables& elemVolVars,
42 const FluxVariablesCache& fluxVarsCache,
43 const int phaseIdx)
44 {
45 const auto shape = fluxVarsCache.throatCrossSectionShape();
46 const Scalar throatInscribedRadius = fluxVarsCache.throatInscribedRadius();
47 const Scalar throatLength = fluxVarsCache.throatLength();
48 const Scalar area = fluxVarsCache.throatCrossSectionalArea();
49 return singlePhaseTransmissibility(shape, throatInscribedRadius, throatLength, area);
50 }
51
54 const Scalar inscribedRadius,
55 const Scalar throatLength,
56 const Scalar area)
57 { return 1.0 / rHydThroat_(shape, inscribedRadius, throatLength, area); }
58
59protected:
60
61 static Scalar rHydThroat_(const Throat::Shape shape,
62 const Scalar radius,
63 const Scalar length,
64 const Scalar area)
65 {
66 switch(shape)
67 {
69 {
70 const Scalar sideLength = 2.0*radius;
71 return 28.4*length * 1.0/(sideLength*sideLength*sideLength*sideLength);
72 }
74 {
75 return 8.0/M_PI * length * 1.0/(radius*radius*radius*radius);
76 }
78 {
79 using std::sqrt;
80 static Scalar sqrt3 = sqrt(3.0);
81 const Scalar sideLength = 6.0/sqrt3 * radius;
82 return 320.0/sqrt3 * length * 1.0/(sideLength*sideLength*sideLength*sideLength);
83 }
85 {
86 // the distance between the two parallel plates
87 const Scalar width = 2*radius;
88 return 12.0/(width*width*width) * length;
89 }
91 {
92 // requires width >> height for good accuracy
93 Scalar height = 2.0*radius;
94 Scalar width = area/height;
95
96 using std::swap;
97 if (width < height)
98 swap(width, height);
99
100 return 12.0*length / (1.0 - 0.63*(height/width)) * 1.0/(height*height*height*width);
101 }
102 default: DUNE_THROW(Dune::InvalidStateException, "Throat geometry not supported");
103 }
104 }
105};
106
112template<class Scalar, bool considerPoreResistance = false, bool interpolateK = false>
114{
115 static_assert(!interpolateK, "Interpolation of k not implemented");
116public:
117
119
120 template<class Problem, class Element, class FVElementGeometry, class ElementVolumeVariables, class FluxVariablesCache>
121 static Scalar singlePhaseTransmissibility(const Problem& problem,
122 const Element& element,
123 const FVElementGeometry& fvGeometry,
124 const typename FVElementGeometry::SubControlVolumeFace& scvf,
125 const ElementVolumeVariables& elemVolVars,
126 const FluxVariablesCache& fluxVarsCache,
127 const int phaseIdx)
128 {
129 assert(fluxVarsCache.throatCrossSectionShape() != Throat::Shape::twoPlates && "TwoPlates not supported. Use TransmissibilityBruus instead!");
130
131 const Scalar shapeFactor = fluxVarsCache.throatShapeFactor();
132 const Scalar area = fluxVarsCache.throatCrossSectionalArea();
133 const Scalar throatLength = fluxVarsCache.throatLength();
134 const Scalar throatTransmissibility = singlePhaseTransmissibility(shapeFactor, throatLength, area);
135
136 if constexpr (!considerPoreResistance)
137 return throatTransmissibility;
138 else
139 {
140 static const bool considerPoreResistanceOnRuntime = getParamFromGroup<bool>(problem.paramGroup(), "Transmissibility.ConsiderPoreResistance", true);
141 if (!considerPoreResistanceOnRuntime)
142 return throatTransmissibility;
143
144 const auto& scv0 = fvGeometry.scv(scvf.insideScvIdx());
145 const auto& scv1 = fvGeometry.scv(scvf.outsideScvIdx());
146
147 const auto& spatialParams = problem.spatialParams();
148 const auto elemSol = elementSolution(element, elemVolVars, fvGeometry);
149
150 // TODO maybe include this in fluxVarsCache if this is general enough
151 const Scalar poreLength0 = spatialParams.poreLength(element, scv0, elemSol);
152 const Scalar poreLength1 = spatialParams.poreLength(element, scv1, elemSol);
153
154 const Scalar poreShapeFactor0 = spatialParams.poreShapeFactor(element, scv0, elemSol);
155 const Scalar poreShapeFactor1 = spatialParams.poreShapeFactor(element, scv1, elemSol);
156
157 const Scalar poreCrossSectionalArea0 = spatialParams.poreCrossSectionalArea(element, scv0, elemSol);
158 const Scalar poreCrossSectionalArea1 = spatialParams.poreCrossSectionalArea(element, scv1, elemSol);
159
160 const Scalar poreTransmissibility0 = singlePhaseTransmissibility(poreShapeFactor0, poreLength0, poreCrossSectionalArea0);
161 const Scalar poreTransmissibility1 = singlePhaseTransmissibility(poreShapeFactor1, poreLength1, poreCrossSectionalArea1);
162
163 return 1 / (1.0/throatTransmissibility + 1.0/poreTransmissibility0 + 1.0/poreTransmissibility1);
164 }
165 }
166
168 static Scalar singlePhaseTransmissibility(const Scalar shapeFactor,
169 const Scalar length,
170 const Scalar area)
171 {
172 const Scalar k = k_(shapeFactor);
173 return k * area*area * shapeFactor / length;
174 }
175
176private:
177 static Scalar k_(const Scalar shapeFactor)
178 {
179 if (shapeFactor <= Throat::shapeFactorEquilateralTriangle<Scalar>())
180 return 0.6; // == 3/5
181 else if (shapeFactor <= Throat::shapeFactorSquare<Scalar>())
182 return 0.5623;
183 else // circle
184 return 0.5;
185 }
186
187 // TODO interpolation
188};
189
190
192template<class Scalar>
194{
195public:
196
198
199 template<class Problem, class Element, class FVElementGeometry, class ElementVolumeVariables, class FluxVariablesCache>
200 static Scalar singlePhaseTransmissibility(const Problem& problem,
201 const Element& element,
202 const FVElementGeometry& fvGeometry,
203 const typename FVElementGeometry::SubControlVolumeFace& scvf,
204 const ElementVolumeVariables& elemVolVars,
205 const FluxVariablesCache& fluxVarsCache,
206 const int phaseIdx)
207 {
208 const Scalar throatInscribedRadius = fluxVarsCache.throatInscribedRadius();
209 const Scalar throatLength = fluxVarsCache.throatLength();
210 return singlePhaseTransmissibility(throatInscribedRadius, throatLength);
211 }
212
214 static Scalar singlePhaseTransmissibility(const Scalar radius,
215 const Scalar length)
216 {
217 const Scalar rEff= std::sqrt(4.0/M_PI)*radius ;
218 return M_PI/(8.0*length) *rEff*rEff*rEff*rEff ;
219 }
220};
221
222} // end namespace Dumux::Porenetwork
223
224#endif
Used by Joeakar-Niasar.
Definition: transmissibility1p.hh:194
static Scalar singlePhaseTransmissibility(const Scalar radius, const Scalar length)
Returns the conductivity of a throat when only one phase is present.
Definition: transmissibility1p.hh:214
static Scalar singlePhaseTransmissibility(const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const typename FVElementGeometry::SubControlVolumeFace &scvf, const ElementVolumeVariables &elemVolVars, const FluxVariablesCache &fluxVarsCache, const int phaseIdx)
Definition: transmissibility1p.hh:200
Collection of single-phase flow throat transmissibilities based on Bruus, H. (2011)....
Definition: transmissibility1p.hh:31
static Scalar singlePhaseTransmissibility(const Throat::Shape shape, const Scalar inscribedRadius, const Scalar throatLength, const Scalar area)
Returns the conductivity of a throat when only one phase is present.
Definition: transmissibility1p.hh:53
static Scalar singlePhaseTransmissibility(const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const typename FVElementGeometry::SubControlVolumeFace &scvf, const ElementVolumeVariables &elemVolVars, const FluxVariablesCache &fluxVarsCache, const int phaseIdx)
Definition: transmissibility1p.hh:37
static Scalar rHydThroat_(const Throat::Shape shape, const Scalar radius, const Scalar length, const Scalar area)
Definition: transmissibility1p.hh:61
Single-phase flow throat transmissibility based on Patzek & Silin (2001) https://doi....
Definition: transmissibility1p.hh:114
static Scalar singlePhaseTransmissibility(const Scalar shapeFactor, const Scalar length, const Scalar area)
Returns the conductivity of a throat when only one phase is present. See Patzek & Silin (2001)
Definition: transmissibility1p.hh:168
static Scalar singlePhaseTransmissibility(const Problem &problem, const Element &element, const FVElementGeometry &fvGeometry, const typename FVElementGeometry::SubControlVolumeFace &scvf, const ElementVolumeVariables &elemVolVars, const FluxVariablesCache &fluxVarsCache, const int phaseIdx)
Definition: transmissibility1p.hh:121
An empty cache for transmissibility laws using only standard quantities.
auto elementSolution(const Element &element, const SolutionVector &sol, const GridGeometry &gg) -> std::enable_if_t< GridGeometry::discMethod==DiscretizationMethods::cctpfa||GridGeometry::discMethod==DiscretizationMethods::ccmpfa, CCElementSolution< typename GridGeometry::LocalView, std::decay_t< decltype(std::declval< SolutionVector >()[0])> > >
Make an element solution for cell-centered schemes.
Definition: cellcentered/elementsolution.hh:101
constexpr Shape shape(const Scalar shapeFactor) noexcept
Returns the shape for a given shape factor.
Definition: throatproperties.hh:165
Shape
Collection of different pore-throat shapes.
Definition: throatproperties.hh:26
Scalar shapeFactor(Shape shape, const Scalar inscribedRadius)
Returns the value of the shape factor for a given shape.
Definition: throatproperties.hh:150
Definition: discretization/porenetwork/fvelementgeometry.hh:24
The infrastructure to retrieve run-time parameters from Dune::ParameterTrees.
Definition: emptycache.hh:19
This file contains functions related to calculate pore-throat properties.