version 3.8
porenetwork/1pnc/model.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//
44#ifndef DUMUX_PNM1PNC_MODEL_HH
45#define DUMUX_PNM1PNC_MODEL_HH
46
47#include <dumux/common/properties.hh>
48
49#include <dumux/flux/porenetwork/fickslaw.hh>
50
51#include <dumux/material/fluidmatrixinteractions/diffusivitymillingtonquirk.hh>
52#include <dumux/material/fluidmatrixinteractions/porenetwork/throat/transmissibility1p.hh>
53#include <dumux/material/fluidstates/immiscible.hh>
54
55#include <dumux/porenetwork/properties.hh>
56#include <dumux/porenetwork/1p/model.hh>
57#include <dumux/porenetwork/1p/spatialparams.hh>
58
59#include <dumux/porousmediumflow/compositional/localresidual.hh>
60#include <dumux/porousmediumflow/nonisothermal/model.hh>
61#include <dumux/porousmediumflow/nonisothermal/indices.hh>
62#include <dumux/porousmediumflow/nonisothermal/iofields.hh>
63#include <dumux/porousmediumflow/1pnc/model.hh>
64#include <dumux/porousmediumflow/1pnc/iofields.hh>
65
66#include "iofields.hh"
67#include "volumevariables.hh"
68
69namespace Dumux::Properties {
71// Type tags
73
75// Create new type tags
76namespace TTag {
77struct PNMOnePNC { using InheritsFrom = std::tuple<PoreNetworkModel, OnePNC>; };
78
80struct PNMOnePNCNI { using InheritsFrom = std::tuple<PNMOnePNC>; };
81} // end namespace TTag
82
84// properties for the isothermal single phase model
86
89template<class TypeTag>
90struct SpatialParams<TypeTag, TTag::PNMOnePNC>
91{
92private:
93 using GridGeometry = GetPropType<TypeTag, Properties::GridGeometry>;
94 using Scalar = GetPropType<TypeTag, Properties::Scalar>;
95public:
96 using type = PoreNetwork::OnePDefaultSpatialParams<GridGeometry, Scalar>;
97};
98
100template<class TypeTag>
101struct AdvectionType<TypeTag, TTag::PNMOnePNC>
102{
103private:
104 using Scalar = GetPropType<TypeTag, Properties::Scalar>;
105 using TransmissibilityLaw = PoreNetwork::TransmissibilityPatzekSilin<Scalar, false/*considerPoreBodyResistance*/>;
106public:
107 using type = PoreNetwork::CreepingFlow<Scalar, TransmissibilityLaw>;
108};
109
111template<class TypeTag>
112struct ReplaceCompEqIdx<TypeTag, TTag::PNMOnePNC>
113{
114private:
115 using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;
116public:
117 static constexpr auto value = FluidSystem::numComponents;
118};
119
121template<class TypeTag>
122struct MolecularDiffusionType<TypeTag, TTag::PNMOnePNC>
123{
124private:
125 using Scalar = GetPropType<TypeTag, Properties::Scalar>;
126 using ModelTraits = GetPropType<TypeTag, Properties::ModelTraits>;
127public:
128 using type = PoreNetwork::PNMFicksLaw<Scalar, ModelTraits::numFluidPhases(), ModelTraits::numFluidComponents()>;
129};
130
132template<class TypeTag>
133struct VolumeVariables<TypeTag, TTag::PNMOnePNC>
134{
135private:
136 using PV = GetPropType<TypeTag, Properties::PrimaryVariables>;
137 using FSY = GetPropType<TypeTag, Properties::FluidSystem>;
138 using FST = GetPropType<TypeTag, Properties::FluidState>;
139 using SSY = GetPropType<TypeTag, Properties::SolidSystem>;
140 using SST = GetPropType<TypeTag, Properties::SolidState>;
141 using MT = GetPropType<TypeTag, Properties::ModelTraits>;
142 using PT = typename GetPropType<TypeTag, Properties::SpatialParams>::PermeabilityType;
143 static_assert(FSY::numComponents == MT::numFluidComponents(), "Number of components mismatch between model and fluid system");
144 static_assert(FST::numComponents == MT::numFluidComponents(), "Number of components mismatch between model and fluid state");
145 static_assert(FSY::numPhases == MT::numFluidPhases(), "Number of phases mismatch between model and fluid system");
146 static_assert(FST::numPhases == MT::numFluidPhases(), "Number of phases mismatch between model and fluid state");
147 using BaseTraits = OnePVolumeVariablesTraits<PV, FSY, FST, SSY, SST, PT, MT>;
148
149 using DT = GetPropType<TypeTag, Properties::MolecularDiffusionType>;
150 using EDM = GetPropType<TypeTag, Properties::EffectiveDiffusivityModel>;
151 template<class BaseTraits, class DT, class EDM>
152 struct NCTraits : public BaseTraits
153 {
154 using DiffusionType = DT;
155 using EffectiveDiffusivityModel = EDM;
156 };
157
158public:
159 using type = PoreNetwork::OnePNCVolumeVariables<NCTraits<BaseTraits, DT, EDM>>;
160};
161
163template<class TypeTag>
164struct IOFields<TypeTag, TTag::PNMOnePNC>
165{ using type = PoreNetwork::OnePNCIOFields<GetPropType<TypeTag, Properties::FluidSystem>>; };
166
167template<class TypeTag>
168struct UseMoles<TypeTag, TTag::PNMOnePNC> { static constexpr bool value = true; };
169
171// Property values for isothermal model required for the general non-isothermal model
173
175template<class TypeTag>
176struct ModelTraits<TypeTag, TTag::PNMOnePNCNI>
177{
178private:
179 using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;
180 using CompositionalDispersionModel = GetPropType<TypeTag, Properties::CompositionalDispersionModel>;
181 using ThermalDispersionModel = GetPropType<TypeTag, Properties::CompositionalDispersionModel>;
182 using IsothermalTraits = OnePNCModelTraits<FluidSystem::numComponents, getPropValue<TypeTag, Properties::UseMoles>(),
183 getPropValue<TypeTag, Properties::EnableCompositionalDispersion>(),
184 getPropValue<TypeTag, Properties::EnableThermalDispersion>(),
185 getPropValue<TypeTag, Properties::ReplaceCompEqIdx>(),
186 CompositionalDispersionModel>;
187public:
188 using type = PorousMediumFlowNIModelTraits<IsothermalTraits, ThermalDispersionModel>;
189};
190
191template<class TypeTag>
192struct VolumeVariables<TypeTag, TTag::PNMOnePNCNI>
193{
194private:
195 using PV = GetPropType<TypeTag, Properties::PrimaryVariables>;
196 using FSY = GetPropType<TypeTag, Properties::FluidSystem>;
197 using FST = GetPropType<TypeTag, Properties::FluidState>;
198 using SSY = GetPropType<TypeTag, Properties::SolidSystem>;
199 using SST = GetPropType<TypeTag, Properties::SolidState>;
200 using MT = GetPropType<TypeTag, Properties::ModelTraits>;
201 using PT = typename GetPropType<TypeTag, Properties::SpatialParams>::PermeabilityType;
202 static_assert(FSY::numComponents == MT::numFluidComponents(), "Number of components mismatch between model and fluid system");
203 static_assert(FST::numComponents == MT::numFluidComponents(), "Number of components mismatch between model and fluid state");
204 static_assert(FSY::numPhases == MT::numFluidPhases(), "Number of phases mismatch between model and fluid system");
205 static_assert(FST::numPhases == MT::numFluidPhases(), "Number of phases mismatch between model and fluid state");
206 using BaseTraits = OnePVolumeVariablesTraits<PV, FSY, FST, SSY, SST, PT, MT>;
207
208 using DT = GetPropType<TypeTag, Properties::MolecularDiffusionType>;
209 using EDM = GetPropType<TypeTag, Properties::EffectiveDiffusivityModel>;
210 using ETCM = GetPropType< TypeTag, Properties:: ThermalConductivityModel>;
211 template<class BaseTraits, class DT, class EDM, class ETCM>
212 struct NCNITraits : public BaseTraits
213 {
214 using DiffusionType = DT;
215 using EffectiveDiffusivityModel = EDM;
216 using EffectiveThermalConductivityModel = ETCM;
217 };
218
219public:
220 using type = PoreNetwork::OnePNCVolumeVariables<NCNITraits<BaseTraits, DT, EDM, ETCM>>;
221};
222
223template<class TypeTag>
224struct IOFields<TypeTag, TTag::PNMOnePNCNI>
225{
226private:
227 using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;
228 using IsothermalFields = PoreNetwork::OnePNCIOFields<FluidSystem>;
229public:
230 using type = EnergyIOFields<IsothermalFields>;
231};
232
233template<class TypeTag>
234struct ThermalConductivityModel<TypeTag, TTag::PNMOnePNCNI>
235{
236 using type = ThermalConductivityAverage<GetPropType<TypeTag, Properties::Scalar>>;
237};
238
239// template<class TypeTag>
240// struct HeatConductionType<TypeTag, TTag::PNMOnePNCNI>
241// {
242// TODO uncomment this as soon as there is a generalized approach for component enthalpies in all fluid systems
243// using type = PoreNetwork::PNMFouriersLaw<GetPropType<TypeTag, MolecularDiffusionType>>;
244// }; //!< Use Fourier's law and also consider enthalpy transport by molecular diffusion
245
246} // end namespace Dumux::Properties
247#endif
Dumux::EnergyIOFields
Adds I/O fields specific to non-isothermal models.
Definition: porousmediumflow/nonisothermal/iofields.hh:27
Dumux::PoreNetwork::CreepingFlow
Hagen–Poiseuille-type flux law to describe the advective flux for pore-network models.
Definition: advection.hh:34
Dumux::PoreNetwork::OnePDefaultSpatialParams
The default class for spatial parameters for single-phase pore-network models.
Definition: porenetwork/1p/spatialparams.hh:44
Dumux::PoreNetwork::OnePNCIOFields
Adds output fields specific to the PNM 1pnc model.
Definition: porenetwork/1pnc/iofields.hh:26
Dumux::PoreNetwork::OnePNCVolumeVariables
Contains the quantities which are are constant within a finite volume in the one-phase,...
Definition: porenetwork/1pnc/volumevariables.hh:32
Dumux::PoreNetwork::PNMFicksLaw
Specialization of Fick's Law for the pore-network model.
Definition: flux/porenetwork/fickslaw.hh:30
Dumux::PoreNetwork::TransmissibilityPatzekSilin
Single-phase flow throat transmissibility based on Patzek & Silin (2001) https://doi....
Definition: transmissibility1p.hh:114
Dumux::ThermalConductivityAverage
Relation for a simple effective thermal conductivity.
Definition: thermalconductivityaverage.hh:25
properties.hh
Defines all properties used in Dumux.
diffusivitymillingtonquirk.hh
Relation for the saturation-dependent effective diffusion coefficient.
fickslaw.hh
This file contains the data which is required to calculate diffusive mass fluxes due to molecular dif...
Dumux::GetPropType
typename GetProp< TypeTag, Property >::type GetPropType
get the type alias defined in the property
Definition: propertysystem.hh:296
immiscible.hh
Represents all relevant thermodynamic quantities of a multi-phase fluid system assuming immiscibility...
Dumux::Properties
The energy balance equation for a porous solid.
Definition: common/properties.hh:26
model.hh
A one-phase-flow, isothermal pore-network model using the fully implicit scheme.
spatialparams.hh
The spatial parameters for single-phase pore-network models.
properties.hh
Defines common properties required for all pore-network models.
iofields.hh
Adds I/O fields specific to the OnePNC model.
model.hh
Adaption of the fully implicit model to the one-phase n-component flow model.
localresidual.hh
Element-wise calculation of the local residual for problems using compositional fully implicit model.
indices.hh
Defines the indices used by the non-isothermal two-phase two-component model.
iofields.hh
Adds I/O fields specific to non-isothermal models.
model.hh
The implicit non-isothermal model.
iofields.hh
Adds I/O fields specific to the tracer model.
volumevariables.hh
Python wrapper for volume variables (finite volume schemes)
Dumux::OnePNCModelTraits
Specifies a number properties of models that consider a single-phase with multiple components.
Definition: porousmediumflow/1pnc/model.hh:81
Dumux::OnePVolumeVariablesTraits
Traits class for the volume variables of the single-phase model.
Definition: porousmediumflow/1p/model.hh:83
Dumux::PorousMediumFlowNIModelTraits
Specifies a number properties of non-isothermal porous medium flow models based on the specifics of a...
Definition: porousmediumflow/nonisothermal/model.hh:71
Dumux::Properties::TTag::PNMOnePNC
Definition: porenetwork/1pnc/model.hh:77
Dumux::Properties::TTag::PNMOnePNC::InheritsFrom
std::tuple< PoreNetworkModel, OnePNC > InheritsFrom
Definition: porenetwork/1pnc/model.hh:77
Dumux::Properties::TTag::PNMOnePNCNI
The type tags for the corresponding non-isothermal problems.
Definition: porenetwork/1pnc/model.hh:80
Dumux::Properties::TTag::PNMOnePNCNI::InheritsFrom
std::tuple< PNMOnePNC > InheritsFrom
Definition: porenetwork/1pnc/model.hh:80
transmissibility1p.hh
Implementation of the single-phase transmissibility laws for throats.