doxygen/src/cs__turbulence__model_8h_source.html

 #ifndef __CS_TURBULENCE_MODEL_H__
 #define __CS_TURBULENCE_MODEL_H__

 /*============================================================================
  * Base turbulence model data.
  *============================================================================*/

 /*
   This file is part of Code_Saturne, a general-purpose CFD tool.

   Copyright (C) 1998-2021 EDF S.A.

   This program is free software; you can redistribute it and/or modify it under
   the terms of the GNU General Public License as published by the Free Software
   Foundation; either version 2 of the License, or (at your option) any later
   version.

   This program is distributed in the hope that it will be useful, but WITHOUT
   ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
   FOR A PARTICULAR PURPOSE.  See the GNU General Public License for more
   details.

   You should have received a copy of the GNU General Public License along with
   this program; if not, write to the Free Software Foundation, Inc., 51 Franklin
   Street, Fifth Floor, Boston, MA 02110-1301, USA.
 */

 /*----------------------------------------------------------------------------*/

 /*----------------------------------------------------------------------------
  *  Local headers
  *----------------------------------------------------------------------------*/

 #include "cs_defs.h"

 /*----------------------------------------------------------------------------*/

 BEGIN_C_DECLS

 /*=============================================================================
  * Macro definitions
  *============================================================================*/

 /*============================================================================
  * Type definitions
  *============================================================================*/

 /*----------------------------------------------------------------------------
  * turbulence models
  *----------------------------------------------------------------------------*/

 typedef enum {

   CS_TURB_NONE = 0,
   CS_TURB_MIXING_LENGTH = 10,
   CS_TURB_K_EPSILON = 20,
   CS_TURB_K_EPSILON_LIN_PROD = 21,
   CS_TURB_K_EPSILON_LS = 22,
   CS_TURB_K_EPSILON_QUAD = 23,
   CS_TURB_RIJ_EPSILON_LRR = 30,
   CS_TURB_RIJ_EPSILON_SSG = 31,
   CS_TURB_RIJ_EPSILON_EBRSM = 32,
   CS_TURB_LES_SMAGO_CONST = 40,
   CS_TURB_LES_SMAGO_DYN = 41,
   CS_TURB_LES_WALE = 42,
   CS_TURB_V2F_PHI = 50,
   CS_TURB_V2F_BL_V2K = 51,
   CS_TURB_K_OMEGA = 60,
   CS_TURB_SPALART_ALLMARAS = 70

 } cs_turb_model_type_t;

 /*----------------------------------------------------------------------------
  * turbulence type of model
  *----------------------------------------------------------------------------*/

 enum {

   CS_TURB_TYPE_NONE = 0,
   CS_TURB_RANS = 1,
   CS_TURB_LES = 2,
   CS_TURB_HYBRID = 3

 };

 /*----------------------------------------------------------------------------
  * turbulence order of model
  *----------------------------------------------------------------------------*/

 enum {

   CS_TURB_ALGEBRAIC = 0,
   CS_TURB_FIRST_ORDER = 1,
   CS_TURB_SECOND_ORDER = 2

 };

 /*----------------------------------------------------------------------------
  * hybrid models
  *----------------------------------------------------------------------------*/

 enum {

   CS_HYBRID_NONE = 0,
   CS_HYBRID_DES  = 1,
   CS_HYBRID_DDES = 2,
   CS_HYBRID_SAS  = 3

 };

 /* turbulence model general options descriptor */
 /*---------------------------------------------*/

 typedef struct {

   int           iturb; /* turbulence model
                           CS_TURB_NONE: no turbulence model (laminar flow)
                           CS_TURB_MIXING_LENGTH: mixing length model
                           CS_TURB_K_EPSILON: standard k-epsilon model
                           CS_TURB_K_EPSILON_LIN_PROD: k-epsilon model with
                             Linear Production (LP) correction
                           CS_TURB_K_EPSILON_LS: Launder-Sharma low Re
                             k-epsilon model
                           CS_TURB_K_EPSILON_QUAD: Baglietto et al. low Re
                             k epsilon model
                           CS_TURB_RIJ_EPSILON_LRR: Rij-epsilon (LRR)
                           CS_TURB_RIJ_EPSILON_SSG: Rij-epsilon (SSG)
                           CS_TURB_RIJ_EPSILON_EBRSM: Rij-epsilon (EBRSM)
                           CS_TURB_LES_SMAGO_CONST: LES
                             (constant Smagorinsky model)
                           CS_TURB_LES_SMAGO_DYN: LES ("classical" dynamic
                             Smagorisky model)
                           CS_TURB_LES_WALE: LES (WALE)
                           CS_TURB_V2F_PHI: v2f phi-model
                           CS_TURB_V2F_BL_V2K: v2f BL-v2-k
                           CS_TURB_K_OMEGA: k-omega SST
                           CS_TURB_SPALART_ALLMARAS: Spalart-Allmaras model */
   int           itytur;       /* class of turbulence model (integer value
                                  iturb/10) */
   int           hybrid_turb;  /* Type of Hybrid Turbulence Model
                                    - CS_HYBRID_NONE: No model
                                    - CS_HYBRID_DES:  Detached Eddy Simulation
                                    - CS_HYBRID_DDES: Delayed Detached Eddy
                                                      Simulation
                                    - CS_HYBRID_SAM:  Scale Adaptive Model */
   int           type;  /* Type of turbulence modelling:
                           - CS_TURB_NONE: No model
                           - CS_TURB_RANS: RANS modelling
                           - CS_TURB_LES: LES modelling
                           - CS_TURB_HYBRID: RANS -- LES modelling */
   int           order; /* Order of the turbulence model:
                           - CS_TURB_ALGEBRAIC: 0th order algebraik model
                           - CS_TURB_FIRST_ORDER: 1st order Eddy Viscosity
                                                  type models
                           - CS_TURB_SECOND_ORDER: 2nd order Differential
                                                   Reynolds Stress type models */
 } cs_turb_model_t;

 /* Reference values for turbulence structure and associated pointer */
 /*------------------------------------------------------------------*/

 typedef struct {

   double        almax;        /* characteristic macroscopic length of the
                                  domain */
   double        uref;         /* characteristic flow velocity */

 } cs_turb_ref_values_t;

 /* RANS turbulence model descriptor */
 /*----------------------------------*/

 typedef struct {

   int           irccor;       /* activation of rotation/curvature correction for
                                  an eddy viscosity turbulence models
                                  - 0: false
                                  - 1: true */
   int           itycor;       /* type of rotation/curvature correction for an
                                  eddy viscosity turbulence models
                                  - 1: Cazalbou correction (default when irccor=1
                                       and itytur=2 or 5)
                                  - 2: Spalart-Shur correction (default when
                                       irccor=1 and iturb=60 or 70) */
   int           idirsm;       /* turbulent diffusion model for second moment
                                  closure
                                  - 0: scalar diffusivity (Shir model)
                                  - 1: tensorial diffusivity (Daly and Harlow
                                       model, default model) */
   int           iclkep;       /* clipping of k and epsilon
                                  - 0: absolute value clipping
                                  - 1: coupled clipping based on physical
                                       relationships */
   int           igrhok;       /* take (2/3 rho grad k) in the momentum
                                  equation
                                  - 1: true
                                  - 0: false (default) */
   int           igrake;       /* buoyant term in k-epsilon
                                  - 1: true (default if rho is variable)
                                  - 0: false */
   int           igrari;       /* buoyant term in Rij-epsilon
                                  - 1: true (default if rho is variable)
                                  - 0: false */
   int           ikecou;       /* partially coupled version of
                                  k-epsilon (only for iturb=20)
                                  - 1: true (default)
                                  - 0: false */
   int           reinit_turb;  /* Advanced re-init for EBRSM and k-omega models
                                  - 1: true (default)
                                  - 0: false */
   int           irijco;       /* coupled solving of Rij
                                  - 1: true
                                  - 0: false (default) */
   int           irijnu;       /* pseudo eddy viscosity in the matrix of momentum
                                  equation to partially implicit div( rho R )
                                  - 1: true
                                  - 0: false (default) */
   int           irijrb;       /* accurate treatment of R at the boundary (see
                                  \ref condli)
                                  - 1: true
                                  - 0: false (default) */
   int           irijec;       /* wall echo term of R
                                  - 1: true
                                  - 0: false (default) */
   int           idifre;       /* whole treatment of the diagonal part of the
                                  diffusion tensor of R and epsilon
                                  - 1: true (default)
                                  - 0: simplified treatment */
   int           iclsyr;       /* partial implicitation of symmetry BCs of R
                                  - 1: true (default)
                                  - 0: false */
   int           iclptr;       /* partial implicitation of wall BCs of R
                                  - 1: true
                                  - 0: false (default) */
   double        xlomlg;       /* mixing length */

 } cs_turb_rans_model_t;

 /* LES turbulence model descriptor */
 /*---------------------------------*/

 typedef struct {

   int           idries;       /* Van Driest smoothing at the wall (only for
                                  itytur=4)
                                  - 1: true
                                  - 0: false */

 } cs_turb_les_model_t;

 /*============================================================================
  * Static global variables
  *============================================================================*/

 /* Pointer to main turbulence model descriptor structure */

 extern const cs_turb_model_t         *cs_glob_turb_model;

 /* Pointer to reference values for turbulence descriptor structure */

 extern const cs_turb_ref_values_t    *cs_glob_turb_ref_values;

 /* Pointer to RANS turbulence model descriptor structure */

 extern const cs_turb_rans_model_t    *cs_glob_turb_rans_model;

 /* Pointer to LES turbulence model descriptor structure */

 extern const cs_turb_les_model_t     *cs_glob_turb_les_model;

 /* Constant for turbulence models */

 extern const double cs_turb_xkappa;
 extern const double cs_turb_vdriest;
 extern const double cs_turb_cstlog;
 extern const double cs_turb_cstlog_rough;
 extern double cs_turb_cstlog_alpha;
 extern const double cs_turb_apow;
 extern const double cs_turb_bpow;
 extern double cs_turb_dpow;
 extern double cs_turb_cmu;
 extern double cs_turb_cmu025;
 extern double cs_turb_ce1;
 extern double cs_turb_ce2;
 extern double cs_turb_ce4;
 extern double cs_turb_crij1;
 extern double cs_turb_crij2;
 extern double cs_turb_crij3;
 extern const double cs_turb_crijp1;
 extern const double cs_turb_crijp2;
 extern const double cs_turb_cssge2;
 extern const double cs_turb_cssgs1;
 extern const double cs_turb_cssgs2;
 extern const double cs_turb_cssgr1;
 extern const double cs_turb_cssgr2;
 extern const double cs_turb_cssgr3;
 extern const double cs_turb_cssgr4;
 extern const double cs_turb_cssgr5;
 extern const double cs_turb_cebms1;
 extern const double cs_turb_cebms2;
 extern const double cs_turb_cebmr1, cebmr2, cebmr3, cebmr4, cebmr5;
 extern double cs_turb_csrij;
 extern const double cs_turb_cebme2;
 extern const double cs_turb_cebmmu;
 extern const double cs_turb_xcl;
 extern const double cs_turb_xa1;
 extern const double cs_turb_xct;
 extern const double cs_turb_xceta;
 extern const double cs_turb_cpale1;
 extern const double cs_turb_cpale2;
 extern const double cs_turb_cpale3;
 extern const double cs_turb_cpale4;
 extern const double cs_turb_cpalc1;
 extern const double cs_turb_cpalc2;
 extern const double cs_turb_cpalct;
 extern const double cs_turb_cpalcl;
 extern const double cs_turb_cpalet;
 extern const double cs_turb_ckwsk1;
 extern const double cs_turb_ckwsk2;
 extern const double cs_turb_ckwsw1;
 extern const double cs_turb_ckwsw2;
 extern const double cs_turb_ckwbt1;
 extern const double cs_turb_ckwbt2;
 extern double cs_turb_ckwgm1;
 extern double cs_turb_ckwgm2;
 extern const double cs_turb_ckwa1;
 extern const double cs_turb_ckwc1;
 extern double cs_turb_cddes;
 extern const double cs_turb_csas;
 extern const double cs_turb_csas_eta2;
 extern const double cs_turb_cnl1;
 extern const double cs_turb_cnl2;
 extern const double cs_turb_cnl3;
 extern const double cs_turb_cnl4;
 extern const double cs_turb_cnl5;
 extern const double cs_turb_csab1;
 extern const double cs_turb_csab2;
 extern const double cs_turb_csasig;
 extern const double cs_turb_csav1;
 extern double cs_turb_csaw1;
 extern const double cs_turb_csaw2;
 extern const double cs_turb_csaw3;
 extern const double cs_turb_cssr1;
 extern const double cs_turb_cssr2;
 extern const double cs_turb_cssr3;
 extern const double cs_turb_ccaze2;
 extern const double cs_turb_ccazsc;
 extern const double cs_turb_ccaza;
 extern const double cs_turb_ccazb;
 extern const double cs_turb_ccazc;
 extern const double cs_turb_ccazd;
 extern const double cs_turb_xlesfl;
 extern const double cs_turb_ales;
 extern const double cs_turb_bles;
 extern double cs_turb_csmago;
 extern double cs_turb_xlesfd;
 extern double cs_turb_csmago_max;
 extern double cs_turb_csmago_min;
 extern double cs_turb_cdries;
 extern const double cs_turb_cv2fa1;
 extern const double cs_turb_cv2fe2;
 extern const double cs_turb_cv2fc1;
 extern const double cs_turb_cv2fc2;
 extern const double cs_turb_cv2fct;
 extern const double cs_turb_cv2fcl;
 extern const double cs_turb_cv2fet;
 extern double cs_turb_cwale;
 extern const double cs_turb_xiafm;
 extern const double cs_turb_etaafm;
 extern const double cs_turb_c1trit;
 extern const double cs_turb_c2trit;
 extern const double cs_turb_c3trit;
 extern const double cs_turb_c4trit;
 extern const double cs_turb_cthafm;
 extern const double cs_turb_cthdfm;

 /*=============================================================================
  * Public function prototypes
  *============================================================================*/

 /*----------------------------------------------------------------------------
  * Initialize turbulence model structures
  *----------------------------------------------------------------------------*/

 void
 cs_turb_model_init(void);

 /*----------------------------------------------------------------------------
  * Set type and order of the turbulence model
  *----------------------------------------------------------------------------*/

 void
 cs_set_type_order_turbulence_model(void);

 /*----------------------------------------------------------------------------
  * Set global pointer to turbulence model structure
  *----------------------------------------------------------------------------*/

 void
 cs_set_glob_turb_model(void);

 /*----------------------------------------------------------------------------
  * Provide write access to turbulence model structure
  *----------------------------------------------------------------------------*/

 cs_turb_model_t *
 cs_get_glob_turb_model(void);

 /*----------------------------------------------------------------------------
  * Compute turbulence model constants,
  * some of which may depend on the model choice.
  *----------------------------------------------------------------------------*/

 void
 cs_turb_compute_constants(void);

 /*----------------------------------------------------------------------------
  * Provide access to cs_glob_turb_ref_values
  *
  * needed to initialize structure with GUI
  *----------------------------------------------------------------------------*/

 cs_turb_ref_values_t *
 cs_get_glob_turb_ref_values(void);

 /*----------------------------------------------------------------------------
  * Provide access to cs_glob_turb_rans_model
  *
  * needed to initialize structure with GUI
  *----------------------------------------------------------------------------*/

 cs_turb_rans_model_t *
 cs_get_glob_turb_rans_model(void);

 /*----------------------------------------------------------------------------
  * Provide access to cs_glob_turb_les_model
  *
  * needed to initialize structure with GUI
  *----------------------------------------------------------------------------*/

 cs_turb_les_model_t *
 cs_get_glob_turb_les_model(void);

 /*----------------------------------------------------------------------------*
  * Print the turbulence model parameters to setup.log.
  *----------------------------------------------------------------------------*/

 void
 cs_turb_model_log_setup(void);

 /*----------------------------------------------------------------------------*
  * Print the turbulent constants to setup.log.
  *----------------------------------------------------------------------------*/

 void
 cs_turb_constants_log_setup(void);

 /*----------------------------------------------------------------------------*
  * Clip turbulent fluxes
  *----------------------------------------------------------------------------*/

 void
 cs_clip_turbulent_fluxes(int  flux_id,
                          int  ivartt);

 /*----------------------------------------------------------------------------*/

 END_C_DECLS

 #endif /* __CS_TURBULENCE_MODEL_H__ */
cs_turb_csav1
const double cs_turb_csav1
Definition: cs_turbulence_model.c:729

cs_turb_ckwsw1
const double cs_turb_ckwsw1
Definition: cs_turbulence_model.c:637

cs_turb_cstlog
const double cs_turb_cstlog
Definition: cs_turbulence_model.c:407

cs_turb_csrij
double cs_turb_csrij
Definition: cs_turbulence_model.c:574

cs_turb_model_t::itytur
int itytur
Definition: cs_turbulence_model.h:138

cs_turb_ckwsw2
const double cs_turb_ckwsw2
Definition: cs_turbulence_model.c:643

cs_glob_turb_rans_model
const cs_turb_rans_model_t * cs_glob_turb_rans_model

cs_turb_cebmr1
const double cs_turb_cebmr1
Definition: cs_turbulence_model.c:564

cs_turb_cnl3
const double cs_turb_cnl3
Definition: cs_turbulence_model.c:920

cs_turb_cssgr4
const double cs_turb_cssgr4
Definition: cs_turbulence_model.c:550

CS_TURB_NONE
Definition: cs_turbulence_model.h:54

CS_HYBRID_DES
Definition: cs_turbulence_model.h:105

cs_turb_cnl1
const double cs_turb_cnl1
Definition: cs_turbulence_model.c:918

cs_turb_cssgr2
const double cs_turb_cssgr2
Definition: cs_turbulence_model.c:538

cs_turb_constants_log_setup
void cs_turb_constants_log_setup(void)
Print the turbulent constants to setup.log.
Definition: cs_turbulence_model.c:1857

cs_turb_ckwgm2
double cs_turb_ckwgm2
Definition: cs_turbulence_model.c:678

cebmr5
const double cebmr5
Definition: cstphy.f90:446

CS_TURB_TYPE_NONE
Definition: cs_turbulence_model.h:79

cs_turb_cpalct
const double cs_turb_cpalct
Definition: cs_turbulence_model.c:613

cs_turb_rans_model_t::xlomlg
double xlomlg
Definition: cs_turbulence_model.h:235

cs_turb_c3trit
const double cs_turb_c3trit
Definition: cs_turbulence_model.c:952

CS_TURB_K_OMEGA
Definition: cs_turbulence_model.h:68

cs_turb_csas
const double cs_turb_csas
Definition: cs_turbulence_model.c:704

cs_turb_rans_model_t::irijec
int irijec
Definition: cs_turbulence_model.h:222

cs_turb_ccazd
const double cs_turb_ccazd
Definition: cs_turbulence_model.c:789

cs_turb_crijp2
const double cs_turb_crijp2
Definition: cs_turbulence_model.c:508

cs_turb_cv2fe2
const double cs_turb_cv2fe2
Definition: cs_turbulence_model.c:882

cs_turb_model_t::order
int order
Definition: cs_turbulence_model.h:151

cs_defs.h

BEGIN_C_DECLS
#define BEGIN_C_DECLS
Definition: cs_defs.h:510

cs_get_glob_turb_les_model
cs_turb_les_model_t * cs_get_glob_turb_les_model(void)
Provide access to cs_glob_turb_les_model.
Definition: cs_turbulence_model.c:1546

CS_HYBRID_NONE
Definition: cs_turbulence_model.h:104

cs_turb_ccaze2
const double cs_turb_ccaze2
Definition: cs_turbulence_model.c:764

cs_turb_model_t
Turbulence model general options descriptor.
Definition: cs_turbulence_model.h:114

cs_turb_les_model_t::idries
int idries
Definition: cs_turbulence_model.h:244

cs_turb_rans_model_t::irijrb
int irijrb
Definition: cs_turbulence_model.h:218

cs_turb_crij2
double cs_turb_crij2
Definition: cs_turbulence_model.c:485

cs_turb_ales
const double cs_turb_ales
Definition: cs_turbulence_model.c:808

cs_turb_ref_values_t::almax
double almax
Definition: cs_turbulence_model.h:164

CS_TURB_HYBRID
Definition: cs_turbulence_model.h:82

CS_HYBRID_SAS
Definition: cs_turbulence_model.h:107

cs_turb_crij1
double cs_turb_crij1
Definition: cs_turbulence_model.c:479

CS_TURB_SECOND_ORDER
Definition: cs_turbulence_model.h:94

cs_turb_cssr3
const double cs_turb_cssr3
Definition: cs_turbulence_model.c:759

cebmr2
const double cebmr2
Definition: cstphy.f90:446

CS_TURB_K_EPSILON_LIN_PROD
Definition: cs_turbulence_model.h:57

cs_turb_xceta
const double cs_turb_xceta
Definition: cs_turbulence_model.c:592

cs_turb_rans_model_t::igrari
int igrari
Definition: cs_turbulence_model.h:201

cs_turb_rans_model_t::irccor
int irccor
Definition: cs_turbulence_model.h:175

cs_turb_ckwsk2
const double cs_turb_ckwsk2
Definition: cs_turbulence_model.c:631

cs_turb_rans_model_t::itycor
int itycor
Definition: cs_turbulence_model.h:179

cs_turb_cssgr3
const double cs_turb_cssgr3
Definition: cs_turbulence_model.c:544

cs_turb_rans_model_t::igrake
int igrake
Definition: cs_turbulence_model.h:198

cs_turb_xiafm
const double cs_turb_xiafm
Definition: cs_turbulence_model.c:932

cs_glob_turb_les_model
const cs_turb_les_model_t * cs_glob_turb_les_model

cs_turb_ref_values_t
Definition: cs_turbulence_model.h:162

cs_set_glob_turb_model
void cs_set_glob_turb_model(void)
Set global pointer to turbulence model structure.
Definition: cs_turbulence_model.c:1436

cs_turb_crijp1
const double cs_turb_crijp1
Definition: cs_turbulence_model.c:500

CS_TURB_LES
Definition: cs_turbulence_model.h:81

cs_turb_cdries
double cs_turb_cdries
Definition: cs_turbulence_model.c:870

cs_turb_cpalc2
const double cs_turb_cpalc2
Definition: cs_turbulence_model.c:610

cs_turb_cddes
double cs_turb_cddes
Definition: cs_turbulence_model.c:698

cs_turb_cnl4
const double cs_turb_cnl4
Definition: cs_turbulence_model.c:921

cs_turb_cpale2
const double cs_turb_cpale2
Definition: cs_turbulence_model.c:598

cs_turb_rans_model_t::irijnu
int irijnu
Definition: cs_turbulence_model.h:214

cs_turb_apow
const double cs_turb_apow
Definition: cs_turbulence_model.c:432

CS_TURB_K_EPSILON
Definition: cs_turbulence_model.h:56

cs_turb_rans_model_t::reinit_turb
int reinit_turb
Definition: cs_turbulence_model.h:208

cs_turb_rans_model_t::iclptr
int iclptr
Definition: cs_turbulence_model.h:232

cs_turb_cpale3
const double cs_turb_cpale3
Definition: cs_turbulence_model.c:601

cs_turb_ce2
double cs_turb_ce2
Definition: cs_turbulence_model.c:464

cs_turb_model_log_setup
void cs_turb_model_log_setup(void)
Print the turbulence model parameters to setup.log.
Definition: cs_turbulence_model.c:1558

cs_turb_cwale
double cs_turb_cwale
Definition: cs_turbulence_model.c:927

cs_turb_xa1
const double cs_turb_xa1
Definition: cs_turbulence_model.c:586

cs_turb_cebmmu
const double cs_turb_cebmmu
Definition: cs_turbulence_model.c:580

cs_turb_ckwa1
const double cs_turb_ckwa1
Definition: cs_turbulence_model.c:685

cs_turb_cmu025
double cs_turb_cmu025
Definition: cs_turbulence_model.c:448

cs_turb_cebms2
const double cs_turb_cebms2
Definition: cs_turbulence_model.c:562

cs_turb_cv2fc1
const double cs_turb_cv2fc1
Definition: cs_turbulence_model.c:888

CS_TURB_K_EPSILON_QUAD
Definition: cs_turbulence_model.h:59

cs_turb_csmago_max
double cs_turb_csmago_max
Definition: cs_turbulence_model.c:851

CS_TURB_LES_SMAGO_DYN
Definition: cs_turbulence_model.h:64

cs_turb_model_t::type
int type
Definition: cs_turbulence_model.h:146

cs_turb_cv2fa1
const double cs_turb_cv2fa1
Definition: cs_turbulence_model.c:876

cs_set_type_order_turbulence_model
void cs_set_type_order_turbulence_model(void)
Initialize type and order members of turbulence model structure.
Definition: cs_turbulence_model.c:1378

CS_TURB_V2F_BL_V2K
Definition: cs_turbulence_model.h:67

cs_turb_xlesfl
const double cs_turb_xlesfl
Definition: cs_turbulence_model.c:799

cs_turb_crij3
double cs_turb_crij3
Definition: cs_turbulence_model.c:491

cebmr3
const double cebmr3
Definition: cstphy.f90:446

cs_turb_c1trit
const double cs_turb_c1trit
Definition: cs_turbulence_model.c:942

cs_turb_model_init
void cs_turb_model_init(void)
Initialize turbulence model structures.
Definition: cs_turbulence_model.c:1364

cs_turb_bles
const double cs_turb_bles
Definition: cs_turbulence_model.c:817

cs_turb_ce4
double cs_turb_ce4
Definition: cs_turbulence_model.c:473

CS_TURB_RIJ_EPSILON_EBRSM
Definition: cs_turbulence_model.h:62

cs_turb_rans_model_t
RANS turbulence model descriptor.
Definition: cs_turbulence_model.h:173

CS_TURB_LES_WALE
Definition: cs_turbulence_model.h:65

CS_TURB_SPALART_ALLMARAS
Definition: cs_turbulence_model.h:69

cs_turb_compute_constants
void cs_turb_compute_constants(void)
Compute turbulence model constants, some of which may depend on the model choice. ...
Definition: cs_turbulence_model.c:1451

cs_glob_turb_ref_values
const cs_turb_ref_values_t * cs_glob_turb_ref_values

CS_TURB_RANS
Definition: cs_turbulence_model.h:80

cs_turb_csaw3
const double cs_turb_csaw3
Definition: cs_turbulence_model.c:744

cs_turb_cv2fct
const double cs_turb_cv2fct
Definition: cs_turbulence_model.c:900

cs_turb_cssgs1
const double cs_turb_cssgs1
Definition: cs_turbulence_model.c:520

cs_turb_model_type_t
cs_turb_model_type_t
Definition: cs_turbulence_model.h:52

cs_turb_cv2fet
const double cs_turb_cv2fet
Definition: cs_turbulence_model.c:912

cs_turb_cv2fc2
const double cs_turb_cv2fc2
Definition: cs_turbulence_model.c:894

cs_turb_ce1
double cs_turb_ce1
Definition: cs_turbulence_model.c:456

cs_turb_cstlog_rough
const double cs_turb_cstlog_rough
Definition: cs_turbulence_model.c:418

cs_turb_xkappa
const double cs_turb_xkappa
Definition: cs_turbulence_model.c:387

cs_turb_xlesfd
double cs_turb_xlesfd
Definition: cs_turbulence_model.c:841

cs_turb_ckwgm1
double cs_turb_ckwgm1
Definition: cs_turbulence_model.c:667

CS_TURB_LES_SMAGO_CONST
Definition: cs_turbulence_model.h:63

cs_turb_csab2
const double cs_turb_csab2
Definition: cs_turbulence_model.c:719

cs_turb_csab1
const double cs_turb_csab1
Definition: cs_turbulence_model.c:714

cs_turb_ccazc
const double cs_turb_ccazc
Definition: cs_turbulence_model.c:784

cs_turb_ccazsc
const double cs_turb_ccazsc
Definition: cs_turbulence_model.c:769

cs_turb_rans_model_t::ikecou
int ikecou
Definition: cs_turbulence_model.h:204

CS_TURB_RIJ_EPSILON_SSG
Definition: cs_turbulence_model.h:61

cs_turb_cssgr5
const double cs_turb_cssgr5
Definition: cs_turbulence_model.c:556

cs_turb_ccazb
const double cs_turb_ccazb
Definition: cs_turbulence_model.c:779

cs_turb_ckwbt2
const double cs_turb_ckwbt2
Definition: cs_turbulence_model.c:655

cs_turb_cpalcl
const double cs_turb_cpalcl
Definition: cs_turbulence_model.c:616

cs_get_glob_turb_ref_values
cs_turb_ref_values_t * cs_get_glob_turb_ref_values(void)
Provide access to cs_glob_turb_ref_values.
Definition: cs_turbulence_model.c:1518

cs_turb_rans_model_t::idifre
int idifre
Definition: cs_turbulence_model.h:225

cs_turb_model_t::iturb
int iturb
Definition: cs_turbulence_model.h:116

cs_turb_ckwsk1
const double cs_turb_ckwsk1
Definition: cs_turbulence_model.c:625

cs_turb_cpalet
const double cs_turb_cpalet
Definition: cs_turbulence_model.c:619

cs_turb_les_model_t
LES turbulence model descriptor.
Definition: cs_turbulence_model.h:242

cebmr4
const double cebmr4
Definition: cstphy.f90:446

cs_turb_vdriest
const double cs_turb_vdriest
Definition: cs_turbulence_model.c:396

END_C_DECLS
#define END_C_DECLS
Definition: cs_defs.h:511

cs_turb_cpale1
const double cs_turb_cpale1
Definition: cs_turbulence_model.c:595

cs_turb_model_t::hybrid_turb
int hybrid_turb
Definition: cs_turbulence_model.h:140

cs_turb_cthafm
const double cs_turb_cthafm
Definition: cs_turbulence_model.c:962

cs_get_glob_turb_model
cs_turb_model_t * cs_get_glob_turb_model(void)
Provide write access to turbulence model structure.
Definition: cs_turbulence_model.c:1422

cs_turb_cnl2
const double cs_turb_cnl2
Definition: cs_turbulence_model.c:919

cs_turb_csasig
const double cs_turb_csasig
Definition: cs_turbulence_model.c:724

CS_TURB_RIJ_EPSILON_LRR
Definition: cs_turbulence_model.h:60

cs_turb_c4trit
const double cs_turb_c4trit
Definition: cs_turbulence_model.c:957

CS_TURB_FIRST_ORDER
Definition: cs_turbulence_model.h:93

cs_turb_cssgs2
const double cs_turb_cssgs2
Definition: cs_turbulence_model.c:526

cs_turb_rans_model_t::iclsyr
int iclsyr
Definition: cs_turbulence_model.h:229

cs_turb_cebme2
const double cs_turb_cebme2
Definition: cs_turbulence_model.c:577

cs_turb_csmago_min
double cs_turb_csmago_min
Definition: cs_turbulence_model.c:861

cs_turb_rans_model_t::iclkep
int iclkep
Definition: cs_turbulence_model.h:190

cs_turb_cv2fcl
const double cs_turb_cv2fcl
Definition: cs_turbulence_model.c:906

cs_turb_csmago
double cs_turb_csmago
Definition: cs_turbulence_model.c:831

cs_turb_ckwbt1
const double cs_turb_ckwbt1
Definition: cs_turbulence_model.c:649

CS_TURB_V2F_PHI
Definition: cs_turbulence_model.h:66

cs_turb_xcl
const double cs_turb_xcl
Definition: cs_turbulence_model.c:583

cs_glob_turb_model
const cs_turb_model_t * cs_glob_turb_model

cs_turb_c2trit
const double cs_turb_c2trit
Definition: cs_turbulence_model.c:947

cs_turb_ref_values_t::uref
double uref
Definition: cs_turbulence_model.h:166

cs_turb_csas_eta2
const double cs_turb_csas_eta2
Definition: cs_turbulence_model.c:709

cs_turb_cssgr1
const double cs_turb_cssgr1
Definition: cs_turbulence_model.c:532

cs_turb_etaafm
const double cs_turb_etaafm
Definition: cs_turbulence_model.c:937

cs_turb_rans_model_t::igrhok
int igrhok
Definition: cs_turbulence_model.h:194

cs_turb_cmu
double cs_turb_cmu
Definition: cs_turbulence_model.c:445

cs_turb_ccaza
const double cs_turb_ccaza
Definition: cs_turbulence_model.c:774

cs_turb_csaw1
double cs_turb_csaw1
Definition: cs_turbulence_model.c:734

cs_turb_cnl5
const double cs_turb_cnl5
Definition: cs_turbulence_model.c:922

cs_clip_turbulent_fluxes
void cs_clip_turbulent_fluxes(int flux_id, int ivartt)
Clipping for the turbulence flux vector.
Definition: cs_turbulence_model.c:2059

cs_get_glob_turb_rans_model
cs_turb_rans_model_t * cs_get_glob_turb_rans_model(void)
Provide access to cs_glob_turb_rans_model.
Definition: cs_turbulence_model.c:1532

cs_turb_rans_model_t::idirsm
int idirsm
Definition: cs_turbulence_model.h:185

cs_turb_ckwc1
const double cs_turb_ckwc1
Definition: cs_turbulence_model.c:692

cs_turb_cssge2
const double cs_turb_cssge2
Definition: cs_turbulence_model.c:514

cs_turb_dpow
double cs_turb_dpow
Definition: cs_turbulence_model.c:438

cs_turb_rans_model_t::irijco
int irijco
Definition: cs_turbulence_model.h:211

cs_turb_cpalc1
const double cs_turb_cpalc1
Definition: cs_turbulence_model.c:607

CS_TURB_K_EPSILON_LS
Definition: cs_turbulence_model.h:58

cs_turb_csaw2
const double cs_turb_csaw2
Definition: cs_turbulence_model.c:739

CS_HYBRID_DDES
Definition: cs_turbulence_model.h:106

cs_turb_cssr1
const double cs_turb_cssr1
Definition: cs_turbulence_model.c:749

CS_TURB_ALGEBRAIC
Definition: cs_turbulence_model.h:92

cs_turb_bpow
const double cs_turb_bpow
Definition: cs_turbulence_model.c:435

CS_TURB_MIXING_LENGTH
Definition: cs_turbulence_model.h:55

cs_turb_cebms1
const double cs_turb_cebms1
Definition: cs_turbulence_model.c:559

cs_turb_xct
const double cs_turb_xct
Definition: cs_turbulence_model.c:589

cs_turb_cstlog_alpha
double cs_turb_cstlog_alpha
Definition: cs_turbulence_model.c:429

cs_turb_cthdfm
const double cs_turb_cthdfm
Definition: cs_turbulence_model.c:967

cs_turb_cssr2
const double cs_turb_cssr2
Definition: cs_turbulence_model.c:754

cs_turb_cpale4
const double cs_turb_cpale4
Definition: cs_turbulence_model.c:604