1 #ifndef __CS_ELEC_MODEL_H__ 2 #define __CS_ELEC_MODEL_H__ cs_real_t * xkabel
Definition: cs_elec_model.h:65
const cs_real_t cs_elec_epszer
Definition: cs_elec_model.c:288
int * ibrsec
Definition: cs_elec_model.h:82
int irestrike
Definition: cs_elec_model.h:100
void cs_elec_convert_h_t(int mode, cs_real_t *ym, cs_real_t *enthal, cs_real_t *temp)
Definition: cs_elec_model.c:981
const cs_data_joule_effect_t * cs_glob_transformer
void cs_elec_fields_initialize(const cs_mesh_t *mesh, int isuite)
Definition: cs_elec_model.c:2033
int modrec
Definition: cs_elec_model.h:104
void elini1(cs_real_t *visls0, cs_real_t *diftl0, cs_int_t *idircl, cs_int_t *isca)
Definition: cs_elec_model.c:482
void elvarp(cs_int_t *ieljou, cs_int_t *ielarc)
Definition: cs_elec_model.c:548
const cs_data_elec_t * cs_glob_elec_properties
int ielarc
Definition: cs_elec_model.h:97
cs_real_t * zi
Definition: cs_elec_model.h:86
integer, dimension(nscamx), save isca
Definition: numvar.f90:131
int ntdcla
Definition: cs_elec_model.h:99
void cs_elec_scaling_function(const cs_mesh_t *mesh, const cs_mesh_quantities_t *mesh_quantities, cs_real_t *dt)
Definition: cs_elec_model.c:2125
void elthht(cs_int_t *mode, cs_real_t *ym, cs_real_t *enthal, cs_real_t *temp)
Definition: cs_elec_model.c:499
int nbelec
Definition: cs_elec_model.h:75
cs_data_joule_effect_t * cs_get_glob_transformer(void)
Definition: cs_elec_model.c:592
#define BEGIN_C_DECLS
Definition: cs_defs.h:453
int cs_int_t
Fortran-compatible integer.
Definition: cs_defs.h:296
int ieljou
Definition: cs_elec_model.h:96
integer, dimension(nvarmx), save idircl
Definition: optcal.f90:392
int * ielecc
Definition: cs_elec_model.h:76
void cs_electrical_model_specific_initialization(cs_real_t *visls0, cs_real_t *diftl0, int *idircl, int *isca)
Definition: cs_elec_model.c:681
cs_real_t * visel
Definition: cs_elec_model.h:63
cs_real_t * zr
Definition: cs_elec_model.h:85
void cs_elec_physical_properties(const cs_mesh_t *mesh, const cs_mesh_quantities_t *mesh_quantities)
Definition: cs_elec_model.c:1077
cs_real_t * uroff
Definition: cs_elec_model.h:87
int ngaz
Definition: cs_elec_model.h:56
cs_real_t elcou
Definition: cs_elec_model.h:111
cs_real_t * rhoel
Definition: cs_elec_model.h:60
cs_real_t * xlabel
Definition: cs_elec_model.h:64
double cs_real_t
Floating-point value.
Definition: cs_defs.h:297
int * ibrpr
Definition: cs_elec_model.h:81
cs_real_t * cpel
Definition: cs_elec_model.h:61
integer, save isuite
Indicator of a calculation restart (=1) or not (=0). This value is set automatically by the code; dep...
Definition: optcal.f90:405
cs_real_t * uioff
Definition: cs_elec_model.h:88
cs_real_t srrom
Definition: cs_elec_model.h:112
const cs_elec_option_t * cs_glob_elec_option
int * izreca
Definition: cs_elec_model.h:106
void cs_electrical_model_initialize(int ielarc, int ieljou)
Definition: cs_elec_model.c:602
void cs_elec_source_terms(const cs_mesh_t *mesh, const cs_mesh_quantities_t *mesh_quantities, int f_id, cs_real_t *smbrs)
Definition: cs_elec_model.c:1719
cs_real_t coejou
Definition: cs_elec_model.h:110
cs_real_t puisim
Definition: cs_elec_model.h:109
int nbtrf
Definition: cs_elec_model.h:79
double precision, dimension(nscamx), save visls0
reference molecular diffusivity related to the scalar J ( ).
Definition: optcal.f90:1349
void eliniv(cs_int_t *isuite)
Definition: cs_elec_model.c:562
integer ielarc
pointer to specify Electric arcs module (Joule effect and Laplace forces) with indicator ippmod(ielar...
Definition: ppincl.f90:173
void elreca(cs_real_t *dt)
Definition: cs_elec_model.c:568
double precision, save diftl0
Definition: ppthch.f90:161
void eltssc(const cs_int_t *isca, cs_real_t *smbrs)
Definition: cs_elec_model.c:523
Definition: cs_field_pointer.h:65
void cs_elec_add_variable_fields(const int *ielarc, const int *ieljou)
Definition: cs_elec_model.c:1813
Definition: cs_mesh_quantities.h:82
const cs_real_t cs_elec_permvi
Definition: cs_elec_model.c:282
cs_real_t cs_real_3_t[3]
vector of 3 floating-point values
Definition: cs_defs.h:309
int * ielecb
Definition: cs_elec_model.h:78
cs_real_t * sigel
Definition: cs_elec_model.h:62
void cs_elec_add_property_fields(const int *ielarc, const int *ieljou)
Definition: cs_elec_model.c:1913
void elphyv(void)
Definition: cs_elec_model.c:516
cs_real_t pot_diff
Definition: cs_elec_model.h:108
option for electric model
Definition: cs_elec_model.h:95
cs_real_t * rnbs
Definition: cs_elec_model.h:84
void cs_electrical_model_finalize(int ielarc, int ieljou)
Definition: cs_elec_model.c:646
int npoint
Definition: cs_elec_model.h:57
#define END_C_DECLS
Definition: cs_defs.h:454
void cs_electrical_properties_read(int ielarc, int ieljou)
Definition: cs_elec_model.c:791
int ntfref
Definition: cs_elec_model.h:80
int ielcor
Definition: cs_elec_model.h:103
void elprop(cs_int_t *ieljou, cs_int_t *ielarc)
Definition: cs_elec_model.c:555
#define CS_PROCF(x, y)
Definition: cs_defs.h:467
void eltsvv(const int *f_id, cs_real_t *smbrv)
Definition: cs_elec_model.c:538
cs_real_t * tenspr
Definition: cs_elec_model.h:83
cs_real_t couimp
Definition: cs_elec_model.h:107
physical properties for electric model descriptor.
Definition: cs_elec_model.h:55
void elflux(cs_int_t *iappel)
Definition: cs_elec_model.c:492
cs_elec_option_t * cs_get_glob_elec_option(void)
Definition: cs_elec_model.c:582
int idreca
Definition: cs_elec_model.h:105
void cs_elec_compute_fields(const cs_mesh_t *mesh, int call_id)
Definition: cs_elec_model.c:1394
int ixkabe
Definition: cs_elec_model.h:98
cs_real_t * th
Definition: cs_elec_model.h:58
cs_real_t * ehgaz
Definition: cs_elec_model.h:59
Structure to read transformer parameters in dp_ELE.
Definition: cs_elec_model.h:74
integer ieljou
pointer to specify Joule effect module (Laplace forces not taken into account) with indicator ippmod(...
Definition: ppincl.f90:165
void ellecd(cs_int_t *ieljou, cs_int_t *ielarc)
Definition: cs_elec_model.c:508
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)
Definition: cs_elec_model.c:1780
int * ielect
Definition: cs_elec_model.h:77