MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim > Class Template Reference

Detailed Description

template<int DisplacementDim>
class MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim >

Orthotropic permeability model based on power law dependency on porosity.

This property must be a solid phase property, it computes the permeability depending on the porosity. A local coordinate system can be given for orthotropy.

Definition at line 35 of file PermeabilityOrthotropicPowerLaw.h.

#include <PermeabilityOrthotropicPowerLaw.h>

Inheritance diagram for MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim >:

Collaboration diagram for MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim >:

Public Member Functions
	PermeabilityOrthotropicPowerLaw (std::string name, std::array< double, DisplacementDim > intrinsic_permeabilities, std::array< double, DisplacementDim > exponents, ParameterLib::CoordinateSystem const *const local_coordinate_system)
void	checkScale () const override
PropertyDataType	value (VariableArray const &variable_array, ParameterLib::SpatialPosition const &pos, double const t, double const dt) const override
PropertyDataType	dValue (VariableArray const &variable_array, Variable const variable, ParameterLib::SpatialPosition const &pos, double const t, double const dt) const override
Public Member Functions inherited from MaterialPropertyLib::Property
virtual	~Property ()
virtual PropertyDataType	initialValue (ParameterLib::SpatialPosition const &pos, double const t) const
virtual PropertyDataType	value () const
virtual PropertyDataType	value (VariableArray const &variable_array, VariableArray const &variable_array_prev, ParameterLib::SpatialPosition const &pos, double const t, double const dt) const
virtual PropertyDataType	dValue (VariableArray const &variable_array, VariableArray const &variable_array_prev, Variable const variable, ParameterLib::SpatialPosition const &pos, double const t, double const dt) const
virtual PropertyDataType	d2Value (VariableArray const &variable_array, Variable const variable1, Variable const variable2, ParameterLib::SpatialPosition const &pos, double const t, double const dt) const
	Default implementation: 2nd derivative of any constant property is zero. More...
void	setScale (std::variant< Medium *, Phase *, Component * > scale)
template<typename T >
T	initialValue (ParameterLib::SpatialPosition const &pos, double const t) const
template<typename T >
T	value () const
template<typename T >
T	value (VariableArray const &variable_array, VariableArray const &variable_array_prev, ParameterLib::SpatialPosition const &pos, double const t, double const dt) const
template<typename T >
T	value (VariableArray const &variable_array, ParameterLib::SpatialPosition const &pos, double const t, double const dt) const
template<typename T >
T	dValue (VariableArray const &variable_array, VariableArray const &variable_array_prev, Variable const variable, ParameterLib::SpatialPosition const &pos, double const t, double const dt) const
template<typename T >
T	dValue (VariableArray const &variable_array, Variable const variable, ParameterLib::SpatialPosition const &pos, double const t, double const dt) const
template<typename T >
T	d2Value (VariableArray const &variable_array, Variable const &variable1, Variable const &variable2, ParameterLib::SpatialPosition const &pos, double const t, double const dt) const

Private Attributes
std::array< double, DisplacementDim > const	k_
	Intrinsic permeabilities, one for each spatial dimension. More...
std::array< double, DisplacementDim > const	lambda_
	Exponents, one for each spatial dimension. More...
ParameterLib::CoordinateSystem const *const	local_coordinate_system_

Additional Inherited Members
Protected Attributes inherited from MaterialPropertyLib::Property
std::string	name_
PropertyDataType	value_
	The single value of a property. More...
PropertyDataType	dvalue_
std::variant< Medium *, Phase *, Component * >	scale_

Constructor & Destructor Documentation

PermeabilityOrthotropicPowerLaw()

template<int DisplacementDim>

MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim >::PermeabilityOrthotropicPowerLaw	(	std::string	name,
		std::array< double, DisplacementDim >	intrinsic_permeabilities,
		std::array< double, DisplacementDim >	exponents,
		ParameterLib::CoordinateSystem const *const	local_coordinate_system
	)

Definition at line 22 of file PermeabilityOrthotropicPowerLaw.cpp.

    : k_(std::move(intrinsic_permeabilities)),
      lambda_(std::move(exponents)),
      local_coordinate_system_(local_coordinate_system)
{
    name_ = std::move(name);
}

References MaterialPropertyLib::name, and MaterialPropertyLib::Property::name_.

Member Function Documentation

checkScale()

template<int DisplacementDim>

void MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim >::checkScale

overridevirtual

Reimplemented from MaterialPropertyLib::Property.

Definition at line 38 of file PermeabilityOrthotropicPowerLaw.cpp.

{
    if (!std::holds_alternative<Medium*>(scale_))
    {
        OGS_FATAL(
            "The property 'PermeabilityOrthotropicPowerLaw' is implemented on "
            "the 'medium' scales only.");
    }
}

References OGS_FATAL.

dValue()

template<int DisplacementDim>

PropertyDataType MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim >::dValue ( VariableArray const &  variable_array, Variable const  variable, ParameterLib::SpatialPosition const &  pos, double const  t, double const  dt  ) const

overridevirtual

This virtual method will compute the property derivative value based on the variables that are passed as arguments with the default implementation using empty variables array for the previous time step.

The default implementation of this method only returns the property value derivative without altering it.

Reimplemented from MaterialPropertyLib::Property.

Definition at line 89 of file PermeabilityOrthotropicPowerLaw.cpp.

{
    if (primary_variable != Variable::total_strain)
    {
        OGS_FATAL(
            "PermeabilityOrthotropicPowerLaw::dValue is implemented for "
            "derivatives with respect to total strain only.");
    }
 
    return 0.;
}

References OGS_FATAL, and MaterialPropertyLib::total_strain.

value()

template<int DisplacementDim>

PropertyDataType MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim >::value ( VariableArray const &  variable_array, ParameterLib::SpatialPosition const &  pos, double const  t, double const  dt  ) const

overridevirtual

This virtual method will compute the property value based on the variables that are passed as arguments with the default implementation using empty variables array for the previous time step.

Reimplemented from MaterialPropertyLib::Property.

Definition at line 48 of file PermeabilityOrthotropicPowerLaw.cpp.

{
    auto const phi = std::get<double>(
        variable_array[static_cast<int>(Variable::transport_porosity)]);
    // TODO (naumov) The phi0 must be evaluated once upon
    // creation/initialization and be stored in a local state.
    // For now assume porosity's initial value does not change with time.
    auto const medium = std::get<Medium*>(scale_);
    auto const phi_0 =
        medium->hasProperty(PropertyType::transport_porosity)
            ? medium->property(PropertyType::transport_porosity)
                  .template initialValue<double>(
                      pos, std::numeric_limits<double>::quiet_NaN())
            : medium->property(PropertyType::porosity)
                  .template initialValue<double>(
                      pos, std::numeric_limits<double>::quiet_NaN());
 
    Eigen::Matrix<double, DisplacementDim, DisplacementDim> k =
        Eigen::Matrix<double, DisplacementDim, DisplacementDim>::Zero();
 
    Eigen::Matrix<double, DisplacementDim, DisplacementDim> const e =
        local_coordinate_system_ == nullptr
            ? Eigen::Matrix<double, DisplacementDim,
                            DisplacementDim>::Identity()
            : local_coordinate_system_->transformation<DisplacementDim>(pos);
 
    // k = \sum_i k_i (\phi / \phi_0)^{\lambda_i} e_i \otimes e_i
    // e_i \otimes e_i = square matrix e_i,0^2 e_i,0*e_i,1 etc.
    for (int i = 0; i < DisplacementDim; ++i)
    {
        Eigen::Matrix<double, DisplacementDim, DisplacementDim> const
            ei_otimes_ei = e.col(i) * e.col(i).transpose();
 
        k += k_[i] * std::pow(phi / phi_0, lambda_[i]) * ei_otimes_ei;
    }
    return k;
}

References MaterialPropertyLib::porosity, and MaterialPropertyLib::transport_porosity.

Member Data Documentation

k_

template<int DisplacementDim>

std::array<double, DisplacementDim> const MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim >::k_

private

Intrinsic permeabilities, one for each spatial dimension.

Definition at line 39 of file PermeabilityOrthotropicPowerLaw.h.

lambda_

template<int DisplacementDim>

std::array<double, DisplacementDim> const MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim >::lambda_

private

Exponents, one for each spatial dimension.

Definition at line 41 of file PermeabilityOrthotropicPowerLaw.h.

local_coordinate_system_

template<int DisplacementDim>

ParameterLib::CoordinateSystem const* const MaterialPropertyLib::PermeabilityOrthotropicPowerLaw< DisplacementDim >::local_coordinate_system_

private

Definition at line 42 of file PermeabilityOrthotropicPowerLaw.h.

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

• MaterialLib/MPL/Properties/PermeabilityOrthotropicPowerLaw.h
• MaterialLib/MPL/Properties/PermeabilityOrthotropicPowerLaw.cpp