ProcessLib::ThermoRichardsMechanics::EqPModel< DisplacementDim > Struct Template Reference

Detailed Description

template<int DisplacementDim>
struct ProcessLib::ThermoRichardsMechanics::EqPModel< DisplacementDim >

Definition at line 35 of file EqP.h.

#include <EqP.h>

Collaboration diagram for ProcessLib::ThermoRichardsMechanics::EqPModel< DisplacementDim >:

Public Member Functions
	EqPModel (ProcessLib::ConstitutiveRelations::SpecificBodyForce< DisplacementDim > const &specific_body_force)
void	eval (CapillaryPressureData< DisplacementDim > const &p_cap_data, TemperatureData< DisplacementDim > const &T_data, SaturationData const &S_L_data, SaturationDataDeriv const &dS_L_data, BiotData const &biot_data, LiquidDensityData const &rho_L_data, LiquidViscosityData const &mu_L_data, PermeabilityData< DisplacementDim > const &perm_data, FluidThermalExpansionData const &f_therm_exp_data, TRMVaporDiffusionData< DisplacementDim > const &vap_data, TRMStorageData const &storage_data, EqPData< DisplacementDim > &out) const

Static Public Member Functions
static EqPModel	create (ProcessLib::ConstitutiveRelations::SpecificBodyForce< DisplacementDim > const &specific_body_force)

Private Attributes
ProcessLib::ConstitutiveRelations::SpecificBodyForce< DisplacementDim > const	specific_body_force_
	Gravity vector (specific body force).

Constructor & Destructor Documentation

EqPModel()

template<int DisplacementDim>

ProcessLib::ThermoRichardsMechanics::EqPModel< DisplacementDim >::EqPModel ( ProcessLib::ConstitutiveRelations::SpecificBodyForce< DisplacementDim > const & specific_body_force )

inlineexplicit

Definition at line 37 of file EqP.h.

        : specific_body_force_(specific_body_force)
    {
    }

References specific_body_force_.

Referenced by create().

Member Function Documentation

create()

template<int DisplacementDim>

EqPModel ProcessLib::ThermoRichardsMechanics::EqPModel< DisplacementDim >::create ( ProcessLib::ConstitutiveRelations::SpecificBodyForce< DisplacementDim > const & specific_body_force )

inlinestatic

Definition at line 56 of file EqP.h.

    {
        return EqPModel{specific_body_force};
    }

References EqPModel().

eval()

template<int DisplacementDim>

void ProcessLib::ThermoRichardsMechanics::EqPModel< DisplacementDim >::eval	(	CapillaryPressureData< DisplacementDim > const &	p_cap_data,
		TemperatureData< DisplacementDim > const &	T_data,
		SaturationData const &	S_L_data,
		SaturationDataDeriv const &	dS_L_data,
		BiotData const &	biot_data,
		LiquidDensityData const &	rho_L_data,
		LiquidViscosityData const &	mu_L_data,
		PermeabilityData< DisplacementDim > const &	perm_data,
		FluidThermalExpansionData const &	f_therm_exp_data,
		TRMVaporDiffusionData< DisplacementDim > const &	vap_data,
		TRMStorageData const &	storage_data,
		EqPData< DisplacementDim > &	out ) const

Definition at line 9 of file EqP.cpp.

{
    out.M_pu_X_BTI2N = S_L_data.S_L * rho_L_data.rho_LR * biot_data();
 
    out.K_pp_Laplace =
        perm_data.k_rel * rho_L_data.rho_LR * perm_data.Ki / mu_L_data();
 
    out.J_pp_X_BTI2NT_u_dot_N =
        -rho_L_data.rho_LR * dS_L_data.dS_L_dp_cap * biot_data();
 
    out.J_pp_dNT_V_N =
        perm_data.Ki / mu_L_data() *
        (rho_L_data.rho_LR * perm_data.dk_rel_dS_L * dS_L_data.dS_L_dp_cap *
         (p_cap_data.grad_p_cap + rho_L_data.rho_LR * specific_body_force_()));
 
    out.M_pT_X_NTN = -S_L_data.S_L * rho_L_data.rho_LR *
                         f_therm_exp_data.eff_thermal_expansion +
                     vap_data.M_pT_X_NTN;
 
    out.storage_p_a_p_X_NTN = storage_data.storage_p_a_p +
                              vap_data.storage_coefficient_by_water_vapor;
 
    out.rhs_p_dNT_V =
        -rho_L_data.rho_LR * (out.K_pp_Laplace * specific_body_force_()) +
        vap_data.J_pT_X_dNTdN * T_data.grad_T;
}

References ProcessLib::ThermoRichardsMechanics::PermeabilityData< DisplacementDim >::dk_rel_dS_L, ProcessLib::ThermoRichardsMechanics::SaturationDataDeriv::dS_L_dp_cap, ProcessLib::ThermoRichardsMechanics::FluidThermalExpansionData::eff_thermal_expansion, ProcessLib::ThermoRichardsMechanics::CapillaryPressureData< DisplacementDim >::grad_p_cap, ProcessLib::ThermoRichardsMechanics::TemperatureData< DisplacementDim >::grad_T, ProcessLib::ThermoRichardsMechanics::EqPData< DisplacementDim >::J_pp_dNT_V_N, ProcessLib::ThermoRichardsMechanics::EqPData< DisplacementDim >::J_pp_X_BTI2NT_u_dot_N, ProcessLib::ThermoRichardsMechanics::TRMVaporDiffusionData< DisplacementDim >::J_pT_X_dNTdN, ProcessLib::ThermoRichardsMechanics::EqPData< DisplacementDim >::K_pp_Laplace, ProcessLib::ThermoRichardsMechanics::PermeabilityData< DisplacementDim >::k_rel, ProcessLib::ThermoRichardsMechanics::PermeabilityData< DisplacementDim >::Ki, ProcessLib::ThermoRichardsMechanics::EqPData< DisplacementDim >::M_pT_X_NTN, ProcessLib::ThermoRichardsMechanics::TRMVaporDiffusionData< DisplacementDim >::M_pT_X_NTN, ProcessLib::ThermoRichardsMechanics::EqPData< DisplacementDim >::M_pu_X_BTI2N, ProcessLib::ThermoRichardsMechanics::LiquidDensityData::rho_LR, ProcessLib::ThermoRichardsMechanics::EqPData< DisplacementDim >::rhs_p_dNT_V, ProcessLib::ThermoRichardsMechanics::SaturationData::S_L, specific_body_force_, ProcessLib::ThermoRichardsMechanics::TRMVaporDiffusionData< DisplacementDim >::storage_coefficient_by_water_vapor, ProcessLib::ThermoRichardsMechanics::TRMStorageData::storage_p_a_p, and ProcessLib::ThermoRichardsMechanics::EqPData< DisplacementDim >::storage_p_a_p_X_NTN.

Member Data Documentation

specific_body_force_

template<int DisplacementDim>

ProcessLib::ConstitutiveRelations::SpecificBodyForce<DisplacementDim> const ProcessLib::ThermoRichardsMechanics::EqPModel< DisplacementDim >::specific_body_force_

private

Gravity vector (specific body force).

Definition at line 65 of file EqP.h.

Referenced by EqPModel(), and eval().

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

• EqP.h
• EqP.cpp