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mm_fill_porous.h
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/************************************************************************ *
* Goma - Multiphysics finite element software *
* Sandia National Laboratories *
* *
* Copyright (c) 2022 Goma Developers, National Technology & Engineering *
* Solutions of Sandia, LLC (NTESS) *
* *
* Under the terms of Contract DE-NA0003525, the U.S. Government retains *
* certain rights in this software. *
* *
* This software is distributed under the GNU General Public License. *
* See LICENSE file. *
\************************************************************************/
/*
* mm_fill_porous.h -- prototype declarations for mm_fill_porous.c
*/
#ifndef GOMA_MM_FILL_POROUS_H
#define GOMA_MM_FILL_POROUS_H
#include "el_elm.h"
#include "exo_struct.h"
#include "mm_std_models_shell.h"
#include "rf_fem_const.h"
#include "std.h"
struct Boundary_Condition;
struct Porous_Media_Terms;
#ifdef EXTERN
#undef EXTERN
#endif
#ifdef GOMA_MM_FILL_POROUS_C
#define EXTERN /* do nothing */
#endif
#ifndef GOMA_MM_FILL_POROUS_C
#define EXTERN extern
#endif
EXTERN int assemble_porous_transport /* mm_fill_porous.c */
(double, /* time - present time valuel; KSC */
double, /* tt - parm to vary time integration from
* explicit (tt = 1) to implicit (tt = 0) */
double); /* dt - current time step size */
EXTERN int load_porous_properties(void);
extern double get_supg_terms_porous(double[DIM], double[DIM][DIM]);
extern void load_nodal_porous_properties(double, double);
extern void load_nodal_shell_porous_properties(double, double, int);
EXTERN int get_porous_part_sat_terms(struct Porous_Media_Terms *, /* pm */
double, /* tt - time integration scheme param */
double); /* dt - current time step size */
EXTERN int get_porous_part_sat_terms_decoupled(struct Porous_Media_Terms *, /* pm */
double, /* tt - time integration scheme param */
double); /* dt - current time step size */
EXTERN int get_porous_fully_sat_terms(struct Porous_Media_Terms *, /* pm */
double, /* tt - parm to vary time integration from
* explicit (tt = 1) to implicit (tt = 0) */
double); /* dt - current time step size */
EXTERN void porous_mass_flux_surf_bc(double[DIM], /* func */
double[DIM][MAX_VARIABLE_TYPES + MAX_CONC][MDE], /* d_func */
int, /* wspec - species number of this BC */
double, /* mass_tran_coeff - units consistent with
* gas phase concentration driving force */
double, /* Y_c - bath concentration */
double, /* mass_tran_coeff1 - units consistent with
* gas phase concentration driving force
* pressure driving force from liquid phase*/
double, /* sink pressure */
dbl, /* dt - current value of the time step */
dbl); /* tt - parm to vary time integration */
EXTERN void porous_convection_bc(double[DIM], /* func */
double[DIM][MAX_VARIABLE_TYPES + MAX_CONC][MDE], /* d_func */
int, /* wspec -species number of this BC */
dbl, /* dt - current value of the time step */
dbl); /* tt - parm to vary time integration */
EXTERN void porous_kinematic_bc(double[DIM], /* func */
double[DIM][MAX_VARIABLE_TYPES + MAX_CONC][MDE], /* d_func */
int, /* wspec - species number of this BC */
dbl, /* dt - current value of the time step */
dbl, /* tt - parm to vary time integration */
dbl); /* vflux */
EXTERN void
porous_normal_velocity_bc(double[], /* func */
double[DIM][MAX_VARIABLE_TYPES + MAX_CONC][MDE], /* d_func */
double[DIM], /* x_dot - mesh velocity vector */
dbl, /* tt - parm to vary time integration from
* explicit (tt = 1) to implicit (tt = 0) */
dbl, /* dt - current value of the time step */
int, /* bc_input_id */
struct Boundary_Condition *, /* BC_Types */
int, /* i_mat_solid - mat block id porous phase */
int, /* i_mat_fluid - mat block id gas phase */
int, /* wspec */
double); /* dens_vap - density of pure solvent vapor */
EXTERN void put_gas_flux_in_pores(double[], /* func */
double[DIM][MAX_VARIABLE_TYPES + MAX_CONC][MDE], /* d_func */
double[DIM], /* x_dot - mesh velocity vector */
dbl, /* tt - parm to vary time integration from
* explicit (tt = 1) to implicit (tt = 0) */
dbl, /* dt - current value of the time step */
int, /* bc_input_id */
struct Boundary_Condition *, /* BC_Types */
int, /* i_mat_solid - mat block id porous phase */
int, /* i_mat_fluid - mat block id gas phase */
int, /* wspec */
double, /* dens_vap - density of pure solvent vapor */
double); /* vapor_recoil */
EXTERN void porous_vapor_equil_bc(double[], /* func */
double[DIM][MAX_VARIABLE_TYPES + MAX_CONC][MDE], /* d_func */
double[DIM], /* x_dot - mesh velocity vector */
dbl, /* tt - parm to vary time integration from
* explicit (tt = 1) to implicit (tt = 0) */
dbl, /* dt - current value of the time step */
int, /* bc_input_id */
struct Boundary_Condition *, /* BC_Types */
int, /* i_mat_solid - mat block id porous phase */
int, /* i_mat_fluid - mat block id gas phase */
int, /* wspec */
double); /* amb_pres - ambient pressure, perhaps? */
EXTERN double load_permeability(void);
EXTERN void load_permeability_tensor(void);
EXTERN void load_shell_permeability_tensor(void);
EXTERN double load_saturation(double, /* porosity */
double, /* cap_pres */
double[2]); /* d_cap_pres */
EXTERN double load_cap_pres(int, /* porous layer index */
int, /* local node number */
int, /* global node number */
double); /* saturation */
EXTERN void load_enthalpy(double, /* saturation */
double); /* pressure */
EXTERN double calc_rho_gas(double,
double,
double *,
double *,
double *,
double *,
double *,
double *,
double *,
double *,
double *);
EXTERN double calc_Ywg(double,
double,
double,
double,
double,
double,
double *,
double *,
double *,
double *,
double *,
double *);
EXTERN double rho_sat_water_vap_EOS(double,
double,
double *, /* drho_wg_dP */
double *, /* drho_wg_dT */
double[2], /* d_drhowg_dP */
double[2]); /* d_drhowg_dT */
EXTERN double rho_air_EOS(double, double, double, double, double *, double *, double[2], double[2]);
EXTERN double eval_rho_poly(double *, double, double);
EXTERN double P_water_sat_EOS(double, /* temperature */
double *, /* dPsat_dT */
double *); /* d_dPsat_dT */
EXTERN double h_air_EOS(double, /* temperature */
double *, /* dha_dT */
double *); /* d_dha_dT */
EXTERN double h_water_compressed_EOS(double, /* pressure */
double, /* temperature */
double *, /* dhl_dP */
double *, /* dhl_dT */
double[2], /* d_dhl_dP */
double[2]); /* d_dhl_dT */
EXTERN double h_water_superheat_EOS(double, /* pressure */
double, /* temperature */
double *, /* dhwg_dP */
double *, /* dhwg_dT */
double[2], /* d_dhwg_dP */
double[2]); /* d_dhwg_dT */
EXTERN double eval_poly(double *, /* coef[] */
double, /* pressure */
double); /* temperature */
EXTERN double eval_poly_dP(double *, /* coef[] */
double, /* pressure */
double, /* temperature */
double *); /* d_dP_poly */
EXTERN double eval_poly_dT(double *, /* coef[] */
double, /* pressure */
double, /* temperature */
double *); /* d_dT_poly */
EXTERN double eval_pv_poly(int, /* order */
double *, /* coef[] */
double); /* temperature */
EXTERN double eval_pv_poly_dT(int, /* order */
double *, /* coef[] */
double, /* temperature */
double *); /* df_d_dT */
EXTERN void load_gas_conc(double, /* porosity */
double, /* cap_pres */
double[2]); /* d_cap_pres */
EXTERN void load_gas_conc_flat(double, /* porosity */
double, /* cap_pres */
double[2]); /* d_cap_pres */
EXTERN void load_gas_conc_EOS(double, /* porosity */
double, /* cap_pres */
double[2]); /* d_cap_pres */
EXTERN void load_bulk_density(double, /* porosity */
double, /* cap_pres */
double, /* saturation */
double[2]); /* d_cap_pres */
EXTERN void load_liq_perm(double, /* porosity */
double, /* cap_pres */
double, /* saturation */
double[2]); /* d_cap_pres */
EXTERN void load_gas_perm(double, /* porosity */
double, /* cap_pres */
double, /* saturation */
double[2]); /* d_cap_pres */
EXTERN void load_gas_diff(double, /* porosity */
double, /* cap_pres */
double, /* saturation */
double[2], /* d_cap_pres */
int); /* species number */
EXTERN void load_mass_flux(double, /* porosity */
double, /* cap_pres */
double, /* saturation */
double[2]); /* d_cap_pres */
EXTERN void load_MandE_flux(double, /* porosity */
double, /* cap_pres */
double, /* saturation */
double[2]); /* d_cap_pres */
EXTERN void calc_darcy_velocity(void);
EXTERN void porous_pressure(double *, /* func */
double[], /* d_func */
int, /* i_mat_solid */
int); /* i_mat_fluid */
EXTERN void porous_pressure_lub(double *, /* func */
double[], /* d_func */
const int, /* id_side */
double[DIM], /* isoparametric coordinates */
const Exo_DB *, /* Exo struct */
const double); /* scale factor */
EXTERN void sat_darcy_continuous_bc(double[], /* func */
double[DIM][MAX_VARIABLE_TYPES + MAX_CONC][MDE], /* d_func */
const double, /* tt - parm vary time integration method. */
const double, /* dt - current time step size */
const double, /* time - current time */
const int, /* i_mat_solid - mat block id porous phase */
const int, /* i_mat_fluid - mat block id gas phase */
const double, /* length scale for level-set */
const double); /* v_attached for level-set case */
EXTERN int evaluate_sat_hyst_criterion(int, /* ip */
int, /* ielem */
struct Porous_Media_Terms *, /* pm */
const double, /* tt - parm vary time integration method. */
const double); /* dt - current time step size */
EXTERN void porous_liq_fill(double *, /* func */
double[], /* d_func */
const int, /* i_mat_solid - mat block id porous phase */
const int, /* i_mat_fluid - mat block id gas phase */
double, /* cap press fluid */
double, /* cap press fluid */
double, /* level set length scale */
MATRL_PROP_STRUCT *); /* material property struct */
void por_liq_flux_fill(double *,
double[MAX_PDIM][MAX_VARIABLE_TYPES + MAX_CONC][MDE],
double,
double,
const int,
const int,
double,
double,
double,
double,
int);
double por_mass_source_model(double d_MassSource[MAX_VARIABLE_TYPES + MAX_CONC][MDE]);
#endif /* GOMA_MM_FILL_POROUS_H */