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cs_turbulence_model.h
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1#ifndef __CS_TURBULENCE_MODEL_H__
2#define __CS_TURBULENCE_MODEL_H__
3
4/*============================================================================
5 * Base turbulence model data.
6 *============================================================================*/
7
8/*
9 This file is part of code_saturne, a general-purpose CFD tool.
10
11 Copyright (C) 1998-2023 EDF S.A.
12
13 This program is free software; you can redistribute it and/or modify it under
14 the terms of the GNU General Public License as published by the Free Software
15 Foundation; either version 2 of the License, or (at your option) any later
16 version.
17
18 This program is distributed in the hope that it will be useful, but WITHOUT
19 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
20 FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
21 details.
22
23 You should have received a copy of the GNU General Public License along with
24 this program; if not, write to the Free Software Foundation, Inc., 51 Franklin
25 Street, Fifth Floor, Boston, MA 02110-1301, USA.
26*/
27
28/*----------------------------------------------------------------------------*/
29
30/*----------------------------------------------------------------------------
31 * Local headers
32 *----------------------------------------------------------------------------*/
33
34#include "cs_defs.h"
35
36/*----------------------------------------------------------------------------*/
37
39
40/*=============================================================================
41 * Macro definitions
42 *============================================================================*/
43
44/*============================================================================
45 * Type definitions
46 *============================================================================*/
47
48/*----------------------------------------------------------------------------
49 * turbulence models
50 *----------------------------------------------------------------------------*/
51
72
73/*----------------------------------------------------------------------------
74 * turbulence type of model
75 *----------------------------------------------------------------------------*/
76
77enum {
78
83
84};
85
86/*----------------------------------------------------------------------------
87 * turbulence order of model
88 *----------------------------------------------------------------------------*/
89
90enum {
91
95
96};
97
98/*----------------------------------------------------------------------------
99 * hybrid models
100 *----------------------------------------------------------------------------*/
101
102enum {
103
109
110};
111
112/* turbulence model general options descriptor */
113/*---------------------------------------------*/
114
115typedef struct {
116
117 int iturb; /* turbulence model
118 CS_TURB_NONE: no turbulence model (laminar flow)
119 CS_TURB_MIXING_LENGTH: mixing length model
120 CS_TURB_K_EPSILON: standard k-epsilon model
121 CS_TURB_K_EPSILON_LIN_PROD: k-epsilon model with
122 Linear Production (LP) correction
123 CS_TURB_K_EPSILON_LS: Launder-Sharma low Re
124 k-epsilon model
125 CS_TURB_K_EPSILON_QUAD: Baglietto et al. low Re
126 k epsilon model
127 CS_TURB_RIJ_EPSILON_LRR: Rij-epsilon (LRR)
128 CS_TURB_RIJ_EPSILON_SSG: Rij-epsilon (SSG)
129 CS_TURB_RIJ_EPSILON_EBRSM: Rij-epsilon (EBRSM)
130 CS_TURB_LES_SMAGO_CONST: LES
131 (constant Smagorinsky model)
132 CS_TURB_LES_SMAGO_DYN: LES ("classical" dynamic
133 Smagorisky model)
134 CS_TURB_LES_WALE: LES (WALE)
135 CS_TURB_V2F_PHI: v2f phi-model
136 CS_TURB_V2F_BL_V2K: v2f BL-v2-k
137 CS_TURB_K_OMEGA: k-omega SST
138 CS_TURB_SPALART_ALLMARAS: Spalart-Allmaras model */
139 int itytur; /* class of turbulence model (integer value
140 iturb/10) */
141 int hybrid_turb; /* Type of Hybrid Turbulence Model
142 - CS_HYBRID_NONE: No model
143 - CS_HYBRID_DES: Detached Eddy Simulation
144 - CS_HYBRID_DDES: Delayed Detached Eddy
145 Simulation
146 - CS_HYBRID_SAM: Scale Adaptive Model
147 - CS_HYBRID_HTLES: Hybrid Temporal Large
148 Eddy Simulation */
149 int type; /* Type of turbulence modelling:
150 - CS_TURB_NONE: No model
151 - CS_TURB_RANS: RANS modelling
152 - CS_TURB_LES: LES modelling
153 - CS_TURB_HYBRID: RANS -- LES modelling */
154 int order; /* Order of the turbulence model:
155 - CS_TURB_ALGEBRAIC: 0th order algebraik model
156 - CS_TURB_FIRST_ORDER: 1st order Eddy Viscosity
157 type models
158 - CS_TURB_SECOND_ORDER: 2nd order Differential
159 Reynolds Stress type models */
161
162/* Reference values for turbulence structure and associated pointer */
163/*------------------------------------------------------------------*/
164
165typedef struct {
166
167 double almax; /* characteristic macroscopic length of the
168 domain */
169 double uref; /* characteristic flow velocity */
170
172
173/* RANS turbulence model descriptor */
174/*----------------------------------*/
175
176typedef struct {
177
178 int irccor; /* activation of rotation/curvature correction for
179 an eddy viscosity turbulence models
180 - 0: false
181 - 1: true */
182 int itycor; /* type of rotation/curvature correction for an
183 eddy viscosity turbulence models
184 - 1: Cazalbou correction (default when irccor=1
185 and itytur=2 or 5)
186 - 2: Spalart-Shur correction (default when
187 irccor=1 and iturb=60 or 70) */
188 int idirsm; /* turbulent diffusion model for second moment
189 closure
190 - 0: scalar diffusivity (Shir model)
191 - 1: tensorial diffusivity (Daly and Harlow
192 model, default model) */
193 int iclkep; /* clipping of k and epsilon
194 - 0: absolute value clipping
195 - 1: coupled clipping based on physical
196 relationships */
197 int igrhok; /* take (2/3 rho grad k) in the momentum
198 equation
199 - 1: true
200 - 0: false (default) */
201 int igrake; /* buoyant term in k-epsilon
202 - 1: true (default if rho is variable)
203 - 0: false */
204 int igrari; /* buoyant term in Rij-epsilon
205 - 1: true (default if rho is variable)
206 - 0: false */
207 int ikecou; /* partially coupled version of
208 k-epsilon (only for iturb=20)
209 - 1: true (default)
210 - 0: false */
211 int reinit_turb; /* Advanced re-init for EBRSM and k-omega models
212 - 1: true (default)
213 - 0: false */
214 int irijco; /* coupled solving of Rij
215 - 1: true
216 - 0: false (default) */
217 int irijnu; /* pseudo eddy viscosity in the matrix of momentum
218 equation to partially implicit div( rho R )
219 - 1: true
220 - 0: false (default) */
221 int irijrb; /* accurate treatment of R at the boundary (see
222 \ref condli)
223 - 1: true
224 - 0: false (default) */
225 int irijec; /* wall echo term of R
226 - 1: true
227 - 0: false (default) */
228 int idifre; /* whole treatment of the diagonal part of the
229 diffusion tensor of R and epsilon
230 - 1: true (default)
231 - 0: simplified treatment */
232 int iclsyr; /* partial implicitation of symmetry BCs of R
233 - 1: true (default)
234 - 0: false */
235 int iclptr; /* partial implicitation of wall BCs of R
236 - 1: true
237 - 0: false (default) */
238 double xlomlg; /* mixing length */
239
241
242/* LES turbulence model descriptor */
243/*---------------------------------*/
244
245typedef struct {
246
247 int idries; /* Van Driest smoothing at the wall (only for
248 itytur=4)
249 - 1: true
250 - 0: false */
251
253
254/* Hybrid turbulence model descriptor */
255/*------------------------------------*/
256
257typedef struct {
258
259 int iicc; /* Internal Consistency Constraint applied
260 (only for hybrid_turb=4)
261 - 1: true
262 - 0: false */
263 int ishield; /* Shielding function applied at the wall
264 (only for hybrid_turb=4)
265 - 1: true
266 - 0: false */
267
268 cs_lnum_t n_iter_mean; /* number of iteration for the exponential mean */
269 cs_lnum_t time_mean; /* time for the exponential mean, automatically
270 computed if n_iter_mean > 0 */
271
273
274/*============================================================================
275 * Static global variables
276 *============================================================================*/
277
278/* Pointer to main turbulence model descriptor structure */
279
281
282/* Pointer to reference values for turbulence descriptor structure */
283
285
286/* Pointer to RANS turbulence model descriptor structure */
287
289
290/* Pointer to LES turbulence model descriptor structure */
291
293
294/* Pointer to hybrid turbulence model descriptor structure */
295
297
298/* Constant for turbulence models */
299
300extern double cs_turb_xkappa;
301extern double cs_turb_vdriest;
302extern double cs_turb_cstlog;
303extern double cs_turb_cstlog_rough;
304extern double cs_turb_cstlog_alpha;
305extern double cs_turb_apow;
306extern double cs_turb_bpow;
307extern double cs_turb_dpow;
308extern double cs_turb_cmu;
309extern double cs_turb_cmu025;
310extern double cs_turb_ce1;
311extern double cs_turb_ce2;
312extern double cs_turb_ce4;
313extern double cs_turb_crij1;
314extern double cs_turb_crij2;
315extern double cs_turb_crij3;
316extern double cs_turb_crijp1;
317extern double cs_turb_crijp2;
318extern double cs_turb_cssge2;
319extern double cs_turb_cssgs1;
320extern double cs_turb_cssgs2;
321extern double cs_turb_cssgr1;
322extern double cs_turb_cssgr2;
323extern double cs_turb_cssgr3;
324extern double cs_turb_cssgr4;
325extern double cs_turb_cssgr5;
326extern double cs_turb_cebms1;
327extern double cs_turb_cebms2;
328extern double cs_turb_cebmr1;
329extern double cs_turb_cebmr2;
330extern double cs_turb_cebmr3;
331extern double cs_turb_cebmr4;
332extern double cs_turb_cebmr5;
333extern double cs_turb_csrij;
334extern double cs_turb_cebme2;
335extern double cs_turb_cebmmu;
336extern double cs_turb_xcl;
337extern double cs_turb_xa1;
338extern double cs_turb_xct;
339extern double cs_turb_xceta;
340extern double cs_turb_cpale1;
341extern double cs_turb_cpale2;
342extern double cs_turb_cpale3;
343extern double cs_turb_cpale4;
344extern double cs_turb_cpalc1;
345extern double cs_turb_cpalc2;
346extern double cs_turb_cpalct;
347extern double cs_turb_cpalcl;
348extern double cs_turb_cpalet;
349extern double cs_turb_ckwsk1;
350extern double cs_turb_ckwsk2;
351extern double cs_turb_ckwsw1;
352extern double cs_turb_ckwsw2;
353extern double cs_turb_ckwbt1;
354extern double cs_turb_ckwbt2;
355extern double cs_turb_ckwgm1;
356extern double cs_turb_ckwgm2;
357extern double cs_turb_ckwa1;
358extern double cs_turb_ckwc1;
359extern double cs_turb_cddes;
360extern double cs_turb_csas;
361extern double cs_turb_csas_eta2;
362extern double cs_turb_chtles_bt0;
363extern double cs_turb_cnl1;
364extern double cs_turb_cnl2;
365extern double cs_turb_cnl3;
366extern double cs_turb_cnl4;
367extern double cs_turb_cnl5;
368extern double cs_turb_csab1;
369extern double cs_turb_csab2;
370extern double cs_turb_csasig;
371extern double cs_turb_csav1;
372extern double cs_turb_csaw1;
373extern double cs_turb_csaw2;
374extern double cs_turb_csaw3;
375extern double cs_turb_cssr1;
376extern double cs_turb_cssr2;
377extern double cs_turb_cssr3;
378extern double cs_turb_ccaze2;
379extern double cs_turb_ccazsc;
380extern double cs_turb_ccaza;
381extern double cs_turb_ccazb;
382extern double cs_turb_ccazc;
383extern double cs_turb_ccazd;
384extern double cs_turb_xlesfl;
385extern double cs_turb_ales;
386extern double cs_turb_bles;
387extern double cs_turb_csmago;
388extern double cs_turb_xlesfd;
389extern double cs_turb_csmago_max;
390extern double cs_turb_csmago_min;
391extern double cs_turb_cdries;
392extern double cs_turb_cv2fa1;
393extern double cs_turb_cv2fe2;
394extern double cs_turb_cv2fc1;
395extern double cs_turb_cv2fc2;
396extern double cs_turb_cv2fct;
397extern double cs_turb_cv2fcl;
398extern double cs_turb_cv2fet;
399extern double cs_turb_cwale;
400extern double cs_turb_xiafm;
401extern double cs_turb_etaafm;
402extern double cs_turb_c1trit;
403extern double cs_turb_c2trit;
404extern double cs_turb_c3trit;
405extern double cs_turb_c4trit;
406extern double cs_turb_cthafm;
407extern double cs_turb_cthdfm;
408extern double cs_turb_cthebdfm;
409
410/*=============================================================================
411 * Public function prototypes
412 *============================================================================*/
413
414/*----------------------------------------------------------------------------
415 * Initialize turbulence model structures
416 *----------------------------------------------------------------------------*/
417
418void
420
421/*----------------------------------------------------------------------------
422 * Set type and order of the turbulence model
423 *----------------------------------------------------------------------------*/
424
425void
427
428/*----------------------------------------------------------------------------
429 * Set global pointer to turbulence model structure
430 *----------------------------------------------------------------------------*/
431
432void
434
435/*----------------------------------------------------------------------------
436 * Provide write access to turbulence model structure
437 *----------------------------------------------------------------------------*/
438
441
442/*----------------------------------------------------------------------------
443 * Compute turbulence model constants,
444 * some of which may depend on the model choice.
445 *----------------------------------------------------------------------------*/
446
447void
449
450/*----------------------------------------------------------------------------
451 * Provide access to cs_glob_turb_ref_values
452 *
453 * needed to initialize structure with GUI
454 *----------------------------------------------------------------------------*/
455
458
459/*----------------------------------------------------------------------------
460 * Provide access to cs_glob_turb_rans_model
461 *
462 * needed to initialize structure with GUI
463 *----------------------------------------------------------------------------*/
464
467
468/*----------------------------------------------------------------------------
469 * Provide access to cs_glob_turb_les_model
470 *
471 * needed to initialize structure with GUI
472 *----------------------------------------------------------------------------*/
473
476
477/*----------------------------------------------------------------------------
478 * Provide access to cs_glob_turb_hybrid_model
479 *
480 * needed to initialize structure with GUI
481 *----------------------------------------------------------------------------*/
482
485
486/*----------------------------------------------------------------------------*
487 * Print the turbulence model parameters to setup.log.
488 *----------------------------------------------------------------------------*/
489
490void
492
493/*----------------------------------------------------------------------------*
494 * Print the turbulent constants to setup.log.
495 *----------------------------------------------------------------------------*/
496
497void
499
500/*----------------------------------------------------------------------------*/
504/*----------------------------------------------------------------------------*/
505
506void
508
509/*----------------------------------------------------------------------------*
510 * Clip turbulent fluxes
511 *----------------------------------------------------------------------------*/
512
513void
514cs_clip_turbulent_fluxes(int flux_id,
515 int ivartt);
516
517/*----------------------------------------------------------------------------*/
534/*----------------------------------------------------------------------------*/
535
536void
537cs_turbulence_function_k(int location_id,
538 cs_lnum_t n_elts,
539 const cs_lnum_t *elt_ids,
540 void *input,
541 void *vals);
542
543/*----------------------------------------------------------------------------*/
560/*----------------------------------------------------------------------------*/
561
562void
563cs_turbulence_function_eps(int location_id,
564 cs_lnum_t n_elts,
565 const cs_lnum_t *elt_ids,
566 void *input,
567 void *vals);
568
569/*----------------------------------------------------------------------------*/
586/*----------------------------------------------------------------------------*/
587
588void
589cs_turbulence_function_rij(int location_id,
590 cs_lnum_t n_elts,
591 const cs_lnum_t *elt_ids,
592 void *input,
593 void *vals);
594
595/*----------------------------------------------------------------------------*/
596
598
599#endif /* __CS_TURBULENCE_MODEL_H__ */
#define BEGIN_C_DECLS
Definition cs_defs.h:509
#define END_C_DECLS
Definition cs_defs.h:510
int cs_lnum_t
local mesh entity id
Definition cs_defs.h:313
double cs_turb_ccazsc
Definition cs_turbulence_model.c:827
double cs_turb_cdries
Definition cs_turbulence_model.c:928
double cs_turb_cssgr5
Definition cs_turbulence_model.c:607
double cs_turb_ccazb
Definition cs_turbulence_model.c:837
double cs_turb_cddes
Definition cs_turbulence_model.c:748
double cs_turb_cebmr3
Definition cs_turbulence_model.c:617
double cs_turb_c3trit
Definition cs_turbulence_model.c:1010
double cs_turb_csaw3
Definition cs_turbulence_model.c:802
double cs_turb_xiafm
Definition cs_turbulence_model.c:990
double cs_turb_cssgr2
Definition cs_turbulence_model.c:589
double cs_turb_ce4
Definition cs_turbulence_model.c:524
double cs_turb_cnl1
Definition cs_turbulence_model.c:976
double cs_turb_cstlog_alpha
Definition cs_turbulence_model.c:479
double cs_turb_cnl5
Definition cs_turbulence_model.c:980
double cs_turb_ccazc
Definition cs_turbulence_model.c:842
double cs_turb_cv2fet
Definition cs_turbulence_model.c:970
double cs_turb_xlesfl
Definition cs_turbulence_model.c:857
double cs_turb_c1trit
Definition cs_turbulence_model.c:1000
double cs_turb_ckwsk1
Definition cs_turbulence_model.c:676
double cs_turb_cpale1
Definition cs_turbulence_model.c:646
double cs_turb_bles
Definition cs_turbulence_model.c:875
double cs_turb_vdriest
Definition cs_turbulence_model.c:446
double cs_turb_cebmr5
Definition cs_turbulence_model.c:619
double cs_turb_csasig
Definition cs_turbulence_model.c:782
double cs_turb_crij2
Definition cs_turbulence_model.c:536
double cs_turb_crijp1
Definition cs_turbulence_model.c:551
double cs_turb_ccazd
Definition cs_turbulence_model.c:847
double cs_turb_cv2fc2
Definition cs_turbulence_model.c:952
double cs_turb_cv2fc1
Definition cs_turbulence_model.c:946
double cs_turb_ckwsk2
Definition cs_turbulence_model.c:682
double cs_turb_ckwbt1
Definition cs_turbulence_model.c:700
double cs_turb_cstlog_rough
Definition cs_turbulence_model.c:468
double cs_turb_cpale4
Definition cs_turbulence_model.c:655
double cs_turb_csas
Definition cs_turbulence_model.c:754
double cs_turb_crij1
Definition cs_turbulence_model.c:530
double cs_turb_ckwc1
Definition cs_turbulence_model.c:742
double cs_turb_ce2
Definition cs_turbulence_model.c:515
double cs_turb_cebmr2
Definition cs_turbulence_model.c:616
double cs_turb_cv2fe2
Definition cs_turbulence_model.c:940
double cs_turb_xct
Definition cs_turbulence_model.c:640
double cs_turb_cssr2
Definition cs_turbulence_model.c:812
double cs_turb_cpalc2
Definition cs_turbulence_model.c:661
double cs_turb_csrij
Definition cs_turbulence_model.c:625
double cs_turb_cpale3
Definition cs_turbulence_model.c:652
double cs_turb_ckwgm1
Definition cs_turbulence_model.c:717
double cs_turb_ales
Definition cs_turbulence_model.c:866
double cs_turb_crij3
Definition cs_turbulence_model.c:542
double cs_turb_xcl
Definition cs_turbulence_model.c:634
double cs_turb_ccaze2
Definition cs_turbulence_model.c:822
double cs_turb_xa1
Definition cs_turbulence_model.c:637
double cs_turb_cebmr4
Definition cs_turbulence_model.c:618
double cs_turb_cmu025
Definition cs_turbulence_model.c:499
double cs_turb_cpalet
Definition cs_turbulence_model.c:670
double cs_turb_cnl4
Definition cs_turbulence_model.c:979
double cs_turb_ckwsw1
Definition cs_turbulence_model.c:688
double cs_turb_cthafm
Definition cs_turbulence_model.c:1020
double cs_turb_ckwsw2
Definition cs_turbulence_model.c:694
double cs_turb_cv2fa1
Definition cs_turbulence_model.c:934
double cs_turb_csaw2
Definition cs_turbulence_model.c:797
double cs_turb_csab1
Definition cs_turbulence_model.c:772
double cs_turb_cssgr4
Definition cs_turbulence_model.c:601
double cs_turb_cstlog
Definition cs_turbulence_model.c:457
double cs_turb_cthdfm
Definition cs_turbulence_model.c:1025
double cs_turb_cssr3
Definition cs_turbulence_model.c:817
double cs_turb_cssgr1
Definition cs_turbulence_model.c:583
double cs_turb_cssge2
Definition cs_turbulence_model.c:565
double cs_turb_cebms2
Definition cs_turbulence_model.c:613
double cs_turb_cv2fct
Definition cs_turbulence_model.c:958
double cs_turb_csmago_max
Definition cs_turbulence_model.c:909
double cs_turb_dpow
Definition cs_turbulence_model.c:488
double cs_turb_cebms1
Definition cs_turbulence_model.c:610
double cs_turb_ckwgm2
Definition cs_turbulence_model.c:728
double cs_turb_apow
Definition cs_turbulence_model.c:482
double cs_turb_c4trit
Definition cs_turbulence_model.c:1015
double cs_turb_cmu
Definition cs_turbulence_model.c:496
double cs_turb_csab2
Definition cs_turbulence_model.c:777
double cs_turb_cssr1
Definition cs_turbulence_model.c:807
double cs_turb_csas_eta2
Definition cs_turbulence_model.c:759
double cs_turb_csaw1
Definition cs_turbulence_model.c:792
double cs_turb_chtles_bt0
Definition cs_turbulence_model.c:767
double cs_turb_ckwa1
Definition cs_turbulence_model.c:735
double cs_turb_cssgr3
Definition cs_turbulence_model.c:595
double cs_turb_c2trit
Definition cs_turbulence_model.c:1005
double cs_turb_csmago_min
Definition cs_turbulence_model.c:919
double cs_turb_cv2fcl
Definition cs_turbulence_model.c:964
double cs_turb_bpow
Definition cs_turbulence_model.c:485
double cs_turb_cnl3
Definition cs_turbulence_model.c:978
double cs_turb_cssgs1
Definition cs_turbulence_model.c:571
double cs_turb_ckwbt2
Definition cs_turbulence_model.c:706
double cs_turb_cpalct
Definition cs_turbulence_model.c:664
double cs_turb_ccaza
Definition cs_turbulence_model.c:832
double cs_turb_xceta
Definition cs_turbulence_model.c:643
double cs_turb_cebme2
Definition cs_turbulence_model.c:628
double cs_turb_cwale
Definition cs_turbulence_model.c:985
double cs_turb_cpalc1
Definition cs_turbulence_model.c:658
double cs_turb_cssgs2
Definition cs_turbulence_model.c:577
double cs_turb_crijp2
Definition cs_turbulence_model.c:559
double cs_turb_cebmr1
Definition cs_turbulence_model.c:615
double cs_turb_csmago
Definition cs_turbulence_model.c:889
double cs_turb_xlesfd
Definition cs_turbulence_model.c:899
double cs_turb_cpalcl
Definition cs_turbulence_model.c:667
double cs_turb_csav1
Definition cs_turbulence_model.c:787
double cs_turb_cnl2
Definition cs_turbulence_model.c:977
double cs_turb_etaafm
Definition cs_turbulence_model.c:995
double cs_turb_xkappa
Definition cs_turbulence_model.c:437
double cs_turb_cthebdfm
Definition cs_turbulence_model.c:1026
double cs_turb_ce1
Definition cs_turbulence_model.c:507
double cs_turb_cebmmu
Definition cs_turbulence_model.c:631
double cs_turb_cpale2
Definition cs_turbulence_model.c:649
void cs_turb_init_ref_quantities(void)
Compute characteristic length for turbulence if not already done.
Definition cs_turbulence_model.c:2216
void cs_turb_model_log_setup(void)
Print the turbulence model parameters to setup.log.
Definition cs_turbulence_model.c:1663
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:1609
void cs_clip_turbulent_fluxes(int flux_id, int ivartt)
Clipping for the turbulence flux vector.
Definition cs_turbulence_model.c:2245
void cs_set_type_order_turbulence_model(void)
Initialize type and order members of turbulence model structure.
Definition cs_turbulence_model.c:1450
@ CS_TURB_FIRST_ORDER
Definition cs_turbulence_model.h:93
@ CS_TURB_SECOND_ORDER
Definition cs_turbulence_model.h:94
@ CS_TURB_ALGEBRAIC
Definition cs_turbulence_model.h:92
cs_turb_model_t * cs_get_glob_turb_model(void)
Provide write access to turbulence model structure.
Definition cs_turbulence_model.c:1494
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:1623
void cs_set_glob_turb_model(void)
Set global pointer to turbulence model structure.
Definition cs_turbulence_model.c:1508
void cs_turbulence_function_k(int location_id, cs_lnum_t n_elts, const cs_lnum_t *elt_ids, void *input, void *vals)
Return or estimate the value of the turbulent kinetic energy over specified elements.
Definition cs_turbulence_model.c:2368
@ CS_TURB_TYPE_NONE
Definition cs_turbulence_model.h:79
@ CS_TURB_RANS
Definition cs_turbulence_model.h:80
@ CS_TURB_HYBRID
Definition cs_turbulence_model.h:82
@ CS_TURB_LES
Definition cs_turbulence_model.h:81
const cs_turb_ref_values_t * cs_glob_turb_ref_values
void cs_turb_model_init(void)
Initialize turbulence model structures.
Definition cs_turbulence_model.c:1436
void cs_turb_compute_constants(void)
Compute turbulence model constants, some of which may depend on the model choice.
Definition cs_turbulence_model.c:1523
const cs_turb_hybrid_model_t * cs_glob_turb_hybrid_model
void cs_turbulence_function_eps(int location_id, cs_lnum_t n_elts, const cs_lnum_t *elt_ids, void *input, void *vals)
Return or estimate the value of the turbulent dissipation over specified elements.
Definition cs_turbulence_model.c:2445
const cs_turb_model_t * cs_glob_turb_model
cs_turb_hybrid_model_t * cs_get_glob_turb_hybrid_model(void)
Provide access to cs_glob_turb_hybrid_model.
Definition cs_turbulence_model.c:1651
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:1637
@ CS_HYBRID_HTLES
Definition cs_turbulence_model.h:108
@ CS_HYBRID_DES
Definition cs_turbulence_model.h:105
@ CS_HYBRID_DDES
Definition cs_turbulence_model.h:106
@ CS_HYBRID_NONE
Definition cs_turbulence_model.h:104
@ CS_HYBRID_SAS
Definition cs_turbulence_model.h:107
const cs_turb_rans_model_t * cs_glob_turb_rans_model
void cs_turb_constants_log_setup(void)
Print the turbulent constants to setup.log.
Definition cs_turbulence_model.c:1991
void cs_turbulence_function_rij(int location_id, cs_lnum_t n_elts, const cs_lnum_t *elt_ids, void *input, void *vals)
Return or estimate the value of the Reynolds stresses over specified elements.
Definition cs_turbulence_model.c:2523
cs_turb_model_type_t
Definition cs_turbulence_model.h:52
@ CS_TURB_SPALART_ALLMARAS
Definition cs_turbulence_model.h:69
@ CS_TURB_MIXING_LENGTH
Definition cs_turbulence_model.h:55
@ CS_TURB_K_EPSILON_LIN_PROD
Definition cs_turbulence_model.h:57
@ CS_TURB_RIJ_EPSILON_LRR
Definition cs_turbulence_model.h:60
@ CS_TURB_NONE
Definition cs_turbulence_model.h:54
@ CS_TURB_RIJ_EPSILON_EBRSM
Definition cs_turbulence_model.h:62
@ CS_TURB_K_EPSILON
Definition cs_turbulence_model.h:56
@ CS_TURB_RIJ_EPSILON_SSG
Definition cs_turbulence_model.h:61
@ CS_TURB_LES_WALE
Definition cs_turbulence_model.h:65
@ CS_TURB_LES_SMAGO_CONST
Definition cs_turbulence_model.h:63
@ CS_TURB_K_EPSILON_QUAD
Definition cs_turbulence_model.h:59
@ CS_TURB_V2F_PHI
Definition cs_turbulence_model.h:66
@ CS_TURB_K_EPSILON_LS
Definition cs_turbulence_model.h:58
@ CS_TURB_V2F_BL_V2K
Definition cs_turbulence_model.h:67
@ CS_TURB_K_OMEGA
Definition cs_turbulence_model.h:68
@ CS_TURB_LES_SMAGO_DYN
Definition cs_turbulence_model.h:64
const cs_turb_les_model_t * cs_glob_turb_les_model
Hybrid turbulence model descriptor.
Definition cs_turbulence_model.h:257
int iicc
Definition cs_turbulence_model.h:259
int ishield
Definition cs_turbulence_model.h:263
cs_lnum_t n_iter_mean
Definition cs_turbulence_model.h:268
cs_lnum_t time_mean
Definition cs_turbulence_model.h:269
LES turbulence model descriptor.
Definition cs_turbulence_model.h:245
int idries
Definition cs_turbulence_model.h:247
Turbulence model general options descriptor.
Definition cs_turbulence_model.h:115
int itytur
Definition cs_turbulence_model.h:139
int hybrid_turb
Definition cs_turbulence_model.h:141
int type
Definition cs_turbulence_model.h:149
int order
Definition cs_turbulence_model.h:154
int iturb
Definition cs_turbulence_model.h:117
RANS turbulence model descriptor.
Definition cs_turbulence_model.h:176
int igrhok
Definition cs_turbulence_model.h:197
int irijnu
Definition cs_turbulence_model.h:217
int igrake
Definition cs_turbulence_model.h:201
int iclkep
Definition cs_turbulence_model.h:193
double xlomlg
Definition cs_turbulence_model.h:238
int irijec
Definition cs_turbulence_model.h:225
int idifre
Definition cs_turbulence_model.h:228
int ikecou
Definition cs_turbulence_model.h:207
int reinit_turb
Definition cs_turbulence_model.h:211
int irijco
Definition cs_turbulence_model.h:214
int idirsm
Definition cs_turbulence_model.h:188
int irccor
Definition cs_turbulence_model.h:178
int iclsyr
Definition cs_turbulence_model.h:232
int irijrb
Definition cs_turbulence_model.h:221
int igrari
Definition cs_turbulence_model.h:204
int itycor
Definition cs_turbulence_model.h:182
int iclptr
Definition cs_turbulence_model.h:235
Definition cs_turbulence_model.h:165
double uref
Definition cs_turbulence_model.h:169
double almax
Definition cs_turbulence_model.h:167