doxygen/src/cs__turbulence__rij_8h_source.html

#ifndef __CS_TURBULENCE_RIJ_H__

#define __CS_TURBULENCE_RIJ_H__


/*============================================================================

 * Rij-epsilon turbulence model.

 *============================================================================*/


/*

  This file is part of code_saturne, a general-purpose CFD tool.


  Copyright (C) 1998-2025 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 "base/cs_defs.h"


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


BEGIN_C_DECLS


/*=============================================================================

 * Public function prototypes

 *============================================================================*/


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

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


void

cs_turbulence_rij(int phase_id);


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

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


void

cs_turbulence_rij_solve_alpha(int        f_id,

                              int        phase_id,

                              cs_real_t  c_durbin_l);


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

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


void

cs_turbulence_rij_init_by_ref_quantities(cs_real_t  uref,

                                         cs_real_t  almax);


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

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


void

cs_turbulence_rij_clip(int        phase_id,

                       cs_lnum_t  n_cells);


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

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


void

cs_turbulence_rij_mu_t(int  phase_id);


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

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


void

cs_turbulence_rij_anisotropic_mu_t

(

 const cs_mesh_quantities_t  *mq,

 cs_lnum_t                    n_cells,

 int                          phase_id,

 bool                         idfm,

 bool                         iggafm,

 bool                         iebdfm

);


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

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


void

cs_turbulence_rij_compute_rusanov(void);


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


END_C_DECLS


#endif /* __CS_TURBULENCE_RIJ_H__ */

cs_defs.h

BEGIN_C_DECLS
#define BEGIN_C_DECLS
Definition: cs_defs.h:554

cs_real_t
double cs_real_t
Floating-point value.
Definition: cs_defs.h:357

END_C_DECLS
#define END_C_DECLS
Definition: cs_defs.h:555

cs_lnum_t
int cs_lnum_t
local mesh entity id
Definition: cs_defs.h:350

cs_turbulence_rij_clip
void cs_turbulence_rij_clip(int phase_id, cs_lnum_t n_cells)
Clip the turbulent Reynods stress tensor and the turbulent dissipation (coupled components version).
Definition: cs_turbulence_rij.cpp:3885

cs_turbulence_rij_anisotropic_mu_t
void cs_turbulence_rij_anisotropic_mu_t(const cs_mesh_quantities_t *mq, cs_lnum_t n_cells, int phase_id, bool idfm, bool iggafm, bool iebdfm)
Compute anisotropic turbulent viscosity for RSM models.
Definition: cs_turbulence_rij.cpp:4273

cs_turbulence_rij_mu_t
void cs_turbulence_rij_mu_t(int phase_id)
Compute the turbulent viscosity for the Reynolds Stress model.
Definition: cs_turbulence_rij.cpp:4157

cs_turbulence_rij_init_by_ref_quantities
void cs_turbulence_rij_init_by_ref_quantities(cs_real_t uref, cs_real_t almax)
Initialize Rij-epsilon variables based on reference quantities.
Definition: cs_turbulence_rij.cpp:3817

cs_turbulence_rij_compute_rusanov
void cs_turbulence_rij_compute_rusanov(void)
Compute Rusanov equivalent diffusivity of the model.
Definition: cs_turbulence_rij.cpp:4427

cs_turbulence_rij_solve_alpha
void cs_turbulence_rij_solve_alpha(int f_id, int phase_id, cs_real_t c_durbin_l)
Solve the equation on alpha in the framework of the Rij-EBRSM model.
Definition: cs_turbulence_rij.cpp:3564

cs_turbulence_rij
void cs_turbulence_rij(int phase_id)
Solve the  for incompressible flows or slightly compressible flows for one time step.
Definition: cs_turbulence_rij.cpp:2935

cs_mesh_quantities_t
Definition: cs_mesh_quantities.h:92