#include "cs_defs.h"Go to the source code of this file.
Functions | |
| void | cs_solve_equation_scalar (cs_field_t *f, cs_lnum_t ncesmp, int iterns, int itspdv, const cs_lnum_t icetsm[], int itypsm[], cs_real_t smacel[], cs_real_t viscf[], cs_real_t viscb[]) |
| Solve the convection/diffusion equation (with optional source terms and/or drift) for a scalar quantity over a time step. | |
| void | cs_solve_equation_vector (cs_field_t *f, const cs_lnum_t ncesmp, int iterns, const cs_lnum_t icetsm[], int itypsm[], cs_real_t smacel[], cs_real_t viscf[], cs_real_t viscb[]) |
| Solve the convection/diffusion equation (with optional source terms and/or drift) for a vectorial quantity over a time step.. | |
| void cs_solve_equation_scalar | ( | cs_field_t * | f, |
| cs_lnum_t | ncesmp, | ||
| int | iterns, | ||
| int | itspdv, | ||
| const cs_lnum_t | icetsm[], | ||
| int | itypsm_sc[], | ||
| cs_real_t | smacel_sc[], | ||
| cs_real_t | viscf[], | ||
| cs_real_t | viscb[] ) |
Solve the convection/diffusion equation (with optional source terms and/or drift) for a scalar quantity over a time step.
| [in] | f | pointer to field structure |
| [in] | ncesmp | number of cells with mass source term |
| [in] | iterns | Navier-Stokes iteration number |
| [in] | itspdv | indicator to compute production/dissipation terms for a variance:
|
| [in] | icetsm | index of cells with mass source term |
| [in] | itypsm | type of mass source term for the variables |
| [in] | smacel | variable value associated to the mass source term (for ivar=ipr, smacel is the mass flux |
| viscf | visc*surface/dist at internal faces (work array) | |
| viscb | visc*surface/dist at boundary faces (work array) |
Electric arcs, Joule effect ionic conduction
Cooling towers
| void cs_solve_equation_vector | ( | cs_field_t * | f, |
| const cs_lnum_t | ncesmp, | ||
| int | iterns, | ||
| const cs_lnum_t | icetsm[], | ||
| int | itypsm_v[], | ||
| cs_real_t | smacel_v[], | ||
| cs_real_t | viscf[], | ||
| cs_real_t | viscb[] ) |
Solve the convection/diffusion equation (with optional source terms and/or drift) for a vectorial quantity over a time step..
| [in] | f | pointer to field structure |
| [in] | ncesmp | number of cells with mass source term |
| [in] | iterns | Navier-Stokes iteration number |
| [in] | icetsm | index of cells with mass source term |
| [in] | itypsm | type of mass source term for the variables |
| [in] | smacel | variable value associated to the mass source term (for ivar=ipr, smacel is the mass flux |
| viscf | visc*surface/dist at internal faces (work array) | |
| viscb | visc*surface/dist at boundary faces (work array) |