7.2
general documentation
cs_elec_model.c File Reference

Base electrical model data. More...

#include "cs_defs.h"
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include "bft_mem.h"
#include "bft_error.h"
#include "bft_printf.h"
#include "cs_field.h"
#include "cs_field_default.h"
#include "cs_file.h"
#include "cs_log.h"
#include "cs_parall.h"
#include "cs_math.h"
#include "cs_mesh_quantities.h"
#include "cs_mesh_location.h"
#include "cs_time_step.h"
#include "cs_parameters.h"
#include "cs_field_pointer.h"
#include "cs_gradient.h"
#include "cs_field_operator.h"
#include "cs_physical_constants.h"
#include "cs_physical_model.h"
#include "cs_thermal_model.h"
#include "cs_turbulence_model.h"
#include "cs_gui_specific_physics.h"
#include "cs_gui_util.h"
#include "cs_post.h"
#include "cs_prototypes.h"
#include "cs_elec_model.h"
+ Include dependency graph for cs_elec_model.c:

Functions

void elini1 (cs_real_t *diftl0)
 
void elflux (int *iappel)
 
void elthht (int *mode, cs_real_t *ym, cs_real_t *enthal, cs_real_t *temp)
 
void ellecd (void)
 
void elphyv (void)
 
void eltssc (const int *isca, cs_real_t *smbrs)
 
void eltsvv (const int *f_id, cs_real_t *smbrv)
 
void eliniv (int *isuite)
 
void elreca (cs_real_t *dt)
 
cs_elec_option_tcs_get_glob_elec_option (void)
 
cs_data_joule_effect_tcs_get_glob_transformer (void)
 
void cs_electrical_model_initialize (void)
 
void cs_electrical_model_finalize (void)
 
void cs_electrical_model_specific_initialization (cs_real_t *diftl0)
 
void cs_electrical_properties_read (void)
 
void cs_elec_physical_properties (cs_domain_t *domain)
 
void cs_elec_compute_fields (const cs_mesh_t *mesh, int call_id)
 
void cs_elec_source_terms (const cs_mesh_t *mesh, const cs_mesh_quantities_t *mesh_quantities, int f_id, cs_real_t *smbrs)
 
void cs_elec_source_terms_v (const cs_mesh_t *mesh, const cs_mesh_quantities_t *mesh_quantities, int f_id, cs_real_3_t *smbrv)
 
void cs_elec_add_variable_fields (void)
 
void cs_elec_add_property_fields (void)
 
void cs_elec_fields_initialize (const cs_mesh_t *mesh, int isuite)
 
void cs_elec_scaling_function (const cs_mesh_t *mesh, const cs_mesh_quantities_t *mesh_quantities, cs_real_t *dt)
 
void cs_elec_convert_h_to_t_faces (const cs_real_t h[], cs_real_t t[])
 Convert enthalpy to temperature at all boundary faces. More...
 
void cs_elec_convert_t_to_h_cells (const cs_real_t t[], cs_real_t h[])
 Convert temperature to enthalpy at all cells. More...
 
void cs_elec_convert_t_to_h_faces (const cs_lnum_t n_faces, const cs_lnum_t face_ids[], const cs_real_t t[], cs_real_t h[])
 Convert temperature to enthalpy at selected boundary faces. More...
 

Variables

const cs_real_t cs_elec_permvi = 1.2566e-6
 
const cs_real_t cs_elec_epszer = 8.854e-12
 

Detailed Description

Base electrical model data.

Please refer to the electric arcs section of the theory guide for more informations.

Function Documentation

◆ cs_elec_add_property_fields()

void cs_elec_add_property_fields ( void  )

◆ cs_elec_add_variable_fields()

void cs_elec_add_variable_fields ( void  )

◆ cs_elec_compute_fields()

void cs_elec_compute_fields ( const cs_mesh_t mesh,
int  call_id 
)

◆ cs_elec_convert_h_to_t_faces()

void cs_elec_convert_h_to_t_faces ( const cs_real_t  h[],
cs_real_t  t[] 
)

Convert enthalpy to temperature at all boundary faces.

This handles both user and model enthalpy conversions, so can be used safely whenever conversion is needed.

Parameters
[in]henthalpy values
[out]ttemperature values

◆ cs_elec_convert_t_to_h_cells()

void cs_elec_convert_t_to_h_cells ( const cs_real_t  t[],
cs_real_t  h[] 
)

Convert temperature to enthalpy at all cells.

This handles both user and model temperature conversions, so can be used safely whenever conversion is needed.

Parameters
[in]ttemperature values
[out]henthalpy values

◆ cs_elec_convert_t_to_h_faces()

void cs_elec_convert_t_to_h_faces ( const cs_lnum_t  n_faces,
const cs_lnum_t  face_ids[],
const cs_real_t  t[],
cs_real_t  h[] 
)

Convert temperature to enthalpy at selected boundary faces.

This handles both user and model temperature conversions, so can be used safely whenever conversion is needed.

Parameters
[in]n_facesnumber of selected faces
[in]face_idsids of selected faces
[in]ttemperature values (defined on all boundary faces)
[out]henthalpy values (defined on all boundary faces)

◆ cs_elec_fields_initialize()

void cs_elec_fields_initialize ( const cs_mesh_t mesh,
int  isuite 
)

◆ cs_elec_physical_properties()

void cs_elec_physical_properties ( cs_domain_t domain)

◆ cs_elec_scaling_function()

void cs_elec_scaling_function ( const cs_mesh_t mesh,
const cs_mesh_quantities_t mesh_quantities,
cs_real_t dt 
)

◆ cs_elec_source_terms()

void cs_elec_source_terms ( const cs_mesh_t mesh,
const cs_mesh_quantities_t mesh_quantities,
int  f_id,
cs_real_t smbrs 
)

◆ cs_elec_source_terms_v()

void cs_elec_source_terms_v ( const cs_mesh_t mesh,
const cs_mesh_quantities_t mesh_quantities,
int  f_id,
cs_real_3_t smbrv 
)

◆ cs_electrical_model_finalize()

void cs_electrical_model_finalize ( void  )

◆ cs_electrical_model_initialize()

void cs_electrical_model_initialize ( void  )

◆ cs_electrical_model_specific_initialization()

void cs_electrical_model_specific_initialization ( cs_real_t diftl0)

◆ cs_electrical_properties_read()

void cs_electrical_properties_read ( void  )

◆ cs_get_glob_elec_option()

cs_elec_option_t* cs_get_glob_elec_option ( void  )

◆ cs_get_glob_transformer()

cs_data_joule_effect_t* cs_get_glob_transformer ( void  )

◆ elflux()

void elflux ( int *  iappel)

◆ elini1()

void elini1 ( cs_real_t diftl0)

◆ eliniv()

void eliniv ( int *  isuite)

◆ ellecd()

void ellecd ( void  )

◆ elphyv()

void elphyv ( void  )

◆ elreca()

void elreca ( cs_real_t dt)

◆ elthht()

void elthht ( int *  mode,
cs_real_t ym,
cs_real_t enthal,
cs_real_t temp 
)

◆ eltssc()

void eltssc ( const int *  isca,
cs_real_t smbrs 
)

◆ eltsvv()

void eltsvv ( const int *  f_id,
cs_real_t smbrv 
)

Variable Documentation

◆ cs_elec_epszer

const cs_real_t cs_elec_epszer = 8.854e-12

vacuum permittivity constant (F/m). (= 8.854e-12)

◆ cs_elec_permvi

const cs_real_t cs_elec_permvi = 1.2566e-6

vacuum magnetic permeability constant (H/m). (= 1.2566e-6)