48#ifndef DUMUX_1PNC_MODEL_HH 
   49#define DUMUX_1PNC_MODEL_HH 
   79template<
int nComp, 
bool useM, 
int enableCompDisp, 
int enableThermDisp, 
int repCompEqIdx = nComp, 
class CDM = 
void>
 
   85    static constexpr int numEq() { 
return nComp; }
 
   90    static constexpr bool useMoles() { 
return useM; }
 
 
  116template<
class TypeTag>
 
  120template<
class TypeTag>
 
  121struct BaseModelTraits<TypeTag, 
TTag::OnePNC>
 
 
  134template<
class TypeTag>
 
  144template<
class TypeTag>
 
  145struct FluidState<TypeTag, 
TTag::OnePNC>
 
 
  156template<
class TypeTag>
 
  157struct EffectiveDiffusivityModel<TypeTag, 
TTag::OnePNC>
 
 
  161template<
class TypeTag>
 
  162struct UseMoles<TypeTag, 
TTag::OnePNC> { 
static constexpr bool value = 
true; };
 
  165template<
class TypeTag>
 
  169template<
class TypeTag>
 
  170struct VolumeVariables<TypeTag, 
TTag::OnePNC>
 
  180    static_assert(FSY::numComponents == MT::numFluidComponents(), 
"Number of components mismatch between model and fluid system");
 
  181    static_assert(FST::numComponents == MT::numFluidComponents(), 
"Number of components mismatch between model and fluid state");
 
  182    static_assert(FSY::numPhases == MT::numFluidPhases(), 
"Number of phases mismatch between model and fluid system");
 
  183    static_assert(FST::numPhases == MT::numFluidPhases(), 
"Number of phases mismatch between model and fluid state");
 
  188    template<
class BaseTraits, 
class DT, 
class EDM>
 
  189    struct NCTraits : 
public BaseTraits
 
  191        using DiffusionType = DT;
 
  192        using EffectiveDiffusivityModel = EDM;
 
 
  200template<
class TypeTag>
 
  208template<
class TypeTag>
 
  212template<
class TypeTag>
 
  213struct ThermalConductivityModel<TypeTag, 
TTag::OnePNCNI>
 
 
  217template<
class TypeTag>
 
  218struct ModelTraits<TypeTag, 
TTag::OnePNCNI>
 
 
  227template<
class TypeTag>
 
  228struct VolumeVariables<TypeTag, 
TTag::OnePNCNI>
 
  238    static_assert(FSY::numComponents == MT::numFluidComponents(), 
"Number of components mismatch between model and fluid system");
 
  239    static_assert(FST::numComponents == MT::numFluidComponents(), 
"Number of components mismatch between model and fluid state");
 
  240    static_assert(FSY::numPhases == MT::numFluidPhases(), 
"Number of phases mismatch between model and fluid system");
 
  241    static_assert(FST::numPhases == MT::numFluidPhases(), 
"Number of phases mismatch between model and fluid state");
 
  247    template<
class BaseTraits, 
class DT, 
class EDM, 
class ETCM>
 
  248    struct NCNITraits : 
public BaseTraits
 
  250        using DiffusionType = DT;
 
  251        using EffectiveDiffusivityModel = EDM;
 
  252        using EffectiveThermalConductivityModel = ETCM;
 
 
  261template<
class OnePNCModelTraits>
 
  267namespace Properties {
 
  280template<
class TypeTag>
 
  284template<
class TypeTag>
 
  287template<
class TypeTag>
 
  288struct ModelTraits<TypeTag, 
TTag::OnePNCNonEquil>
 
 
  305template<
class TypeTag>
 
  306struct EnableChemicalNonEquilibrium<TypeTag, 
TTag::OnePNCNonEquil> { 
static constexpr bool value = 
false; };
 
  309template<
class TypeTag>
 
  310struct EquilibriumModelTraits<TypeTag, 
TTag::OnePNCNonEquil>
 
 
  324template<
class TypeTag>
 
  325struct ThermalConductivityModel<TypeTag, 
TTag::OnePNCNonEquil>
 
 
  334template<
class TypeTag>
 
  335struct VolumeVariables<TypeTag, 
TTag::OnePNCNonEquil>
 
  350    template<
class BaseTraits, 
class DT, 
class EDM, 
class ETCM>
 
  351    struct NCNITraits : 
public BaseTraits
 
  353        using DiffusionType = DT;
 
  354        using EffectiveDiffusivityModel = EDM;
 
  355        using EffectiveThermalConductivityModel = ETCM;
 
 
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assum...
Definition compositional.hh:35
Element-wise calculation of the local residual for problems using compositional fully implicit model.
Definition porousmediumflow/compositional/localresidual.hh:35
Relation for the effective diffusion coefficient after Millington and Quirk.
Definition diffusivitymillingtonquirk.hh:43
Adds I/O fields specific to non-isothermal models.
Definition porousmediumflow/nonisothermal/iofields.hh:27
Adds I/O fields specific to the OnePNC model.
Definition porousmediumflow/1pnc/iofields.hh:26
Contains the quantities which are are constant within a finite volume in the one-phase,...
Definition porousmediumflow/1pnc/volumevariables.hh:38
Effective thermal conductivity based on weighted arithmetic average.
Definition thermalconductivityaverage.hh:49
Defines all properties used in Dumux.
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assum...
Relation for the effective diffusion coefficient after Millington and Quirk.
constexpr auto getPropValue()
get the value data member of a property
Definition propertysystem.hh:310
typename GetProp< TypeTag, Property >::type GetPropType
get the type alias defined in the property
Definition propertysystem.hh:296
Type tag for numeric models.
Definition grid.hh:24
NonEquilibriumVolumeVariablesImplementation< Traits, EquilibriumVolumeVariables, Traits::ModelTraits::enableChemicalNonEquilibrium(), Traits::ModelTraits::enableThermalNonEquilibrium(), Traits::ModelTraits::numEnergyEqFluid()> NonEquilibriumVolumeVariables
Definition porousmediumflow/nonequilibrium/volumevariables.hh:40
A single-phase, isothermal flow model using the fully implicit scheme.
Defines the primary variable and equation indices used by the 1pnc model.
Adds I/O fields specific to the OnePNC model.
Quantities required by the single-phase, n-component box model defined on a vertex.
Element-wise calculation of the local residual for problems using compositional fully implicit model.
This specifies models which are able to capture non-equilibrium mass and / or energy transfer.
This class contains the volume variables required for the modules which require the specific interfac...
Defines the indices used by the non-isothermal two-phase two-component model.
Adds I/O fields specific to non-isothermal models.
The implicit non-isothermal model.
Defines a type tag and some properties for models using the box scheme.
Specifies a number properties of porous-medium flow non-equilibrium models.
Definition porousmediumflow/nonequilibrium/model.hh:45
The indices for the isothermal one-phase n-component model.
Definition porousmediumflow/1pnc/indices.hh:26
Specifies a number properties of models that consider a single-phase with multiple components.
Definition porousmediumflow/1pnc/model.hh:81
static constexpr int numEq()
Definition porousmediumflow/1pnc/model.hh:85
static constexpr bool enableAdvection()
Definition porousmediumflow/1pnc/model.hh:91
static constexpr int numFluidComponents()
Definition porousmediumflow/1pnc/model.hh:87
static constexpr int numFluidPhases()
Definition porousmediumflow/1pnc/model.hh:86
static constexpr int replaceCompEqIdx()
Definition porousmediumflow/1pnc/model.hh:88
static constexpr bool useMoles()
Definition porousmediumflow/1pnc/model.hh:90
static constexpr bool enableCompositionalDispersion()
Definition porousmediumflow/1pnc/model.hh:93
CompositionalDispersionModel CompositionalDispersionModel
Definition porousmediumflow/1pnc/model.hh:83
static constexpr bool enableMolecularDiffusion()
Definition porousmediumflow/1pnc/model.hh:92
static constexpr bool enableThermalDispersion()
Definition porousmediumflow/1pnc/model.hh:94
static constexpr bool enableEnergyBalance()
Definition porousmediumflow/1pnc/model.hh:95
OnePNCIndices Indices
Definition porousmediumflow/1pnc/model.hh:82
Definition porousmediumflow/1pnc/model.hh:263
static constexpr int numConstraintEq()
Definition porousmediumflow/1pnc/model.hh:264
Traits class for the volume variables of the single-phase model.
Definition porousmediumflow/1p/model.hh:83
Specifies a number properties of non-isothermal porous medium flow models based on the specifics of a...
Definition porousmediumflow/nonisothermal/model.hh:76
OnePNCModelTraits< FluidSystem::numComponents, getPropValue< TypeTag, Properties::UseMoles >(), getPropValue< TypeTag, Properties::EnableCompositionalDispersion >(), getPropValue< TypeTag, Properties::EnableThermalDispersion >(), getPropValue< TypeTag, Properties::ReplaceCompEqIdx >(), CDM > type
Definition porousmediumflow/1pnc/model.hh:127
DiffusivityMillingtonQuirk< GetPropType< TypeTag, Properties::Scalar > > type
Definition porousmediumflow/1pnc/model.hh:158
static constexpr bool value
Definition porousmediumflow/1pnc/model.hh:306
OnePNCIOFields type
Definition porousmediumflow/1pnc/model.hh:285
CompositionalLocalResidual< TypeTag > type
Definition porousmediumflow/1pnc/model.hh:281
OnePNCUnconstrainedModelTraits< EquilibriumTraits > type
Definition porousmediumflow/1pnc/model.hh:320
CompositionalFluidState< Scalar, FluidSystem > type
Definition porousmediumflow/1pnc/model.hh:152
OnePNCIOFields type
Definition porousmediumflow/1pnc/model.hh:201
EnergyIOFields< OnePNCIOFields > type
Definition porousmediumflow/1pnc/model.hh:209
CompositionalLocalResidual< TypeTag > type
Definition porousmediumflow/1pnc/model.hh:166
GetPropType< TypeTag, Properties::BaseModelTraits > type
Definition porousmediumflow/1pnc/model.hh:135
PorousMediumFlowNIModelTraits< IsothermalTraits, TDM > type
Definition porousmediumflow/1pnc/model.hh:224
NonEquilTraits type
Definition porousmediumflow/1pnc/model.hh:301
static constexpr int value
Definition porousmediumflow/1pnc/model.hh:117
Definition porousmediumflow/1pnc/model.hh:107
std::tuple< PorousMediumFlow > InheritsFrom
Definition porousmediumflow/1pnc/model.hh:107
Definition porousmediumflow/1pnc/model.hh:108
std::tuple< OnePNC > InheritsFrom
Definition porousmediumflow/1pnc/model.hh:108
Definition porousmediumflow/1pnc/model.hh:272
std::tuple< NonEquilibrium, OnePNC > InheritsFrom
Definition porousmediumflow/1pnc/model.hh:272
ThermalConductivityAverage< GetPropType< TypeTag, Properties::Scalar > > type
Definition porousmediumflow/1pnc/model.hh:214
ThermalConductivityAverage< Scalar > type
Definition porousmediumflow/1pnc/model.hh:330
static constexpr bool value
Definition porousmediumflow/1pnc/model.hh:162
OnePNCVolumeVariables< NCTraits< BaseTraits, DT, EDM > > type
Definition porousmediumflow/1pnc/model.hh:196
OnePNCVolumeVariables< NCNITraits< BaseTraits, DT, EDM, ETCM > > type
Definition porousmediumflow/1pnc/model.hh:256
NonEquilibriumVolumeVariables< NCNITraits< BaseTraits, DT, EDM, ETCM >, EquilibriumVolVars > type
Definition porousmediumflow/1pnc/model.hh:360
Effective thermal conductivity based on weighted arithmetic average.