7.3
general documentation
Variables
and thermal exchange coefficients
Module for calculation options
+ Collaboration diagram for and thermal exchange coefficients:

Variables

integer(c_int), pointer, save nfbpcd
 
integer, dimension(:,:), pointer, save itypcd
 
double precision, dimension(:), pointer, save thermal_condensation_flux
 
double precision, dimension(:), pointer, save flthr
 
double precision, dimension(:), pointer, save dflthr
 
double precision, dimension(:,:), pointer, save spcond
 
double precision, dimension(:), pointer, save twall_cond
 
double precision, dimension(:), pointer, save hpcond
 value of the thermal exchange coefficient associated to the condensation model used. See the user subroutine cs_user_wall_condensation More...
 
integer, dimension(:), pointer, save ifbpcd
 list on the nfbpcd faces in which a condensation source terms is imposed. See ifbpcd and the user subroutine cs_user_wall_condensation More...
 
integer(c_int), pointer, save nzones
 
integer, dimension(:), pointer, save izzftcd
 
integer, dimension(:), pointer, save izcophc
 
integer, dimension(:), pointer, save izcophg
 

Detailed Description

Variable Documentation

◆ dflthr

double precision, dimension(:), pointer, save dflthr

external heat flux derivative used as flux conditions of the 1d thermal model (in unit $W.m^{-3}$).

◆ flthr

double precision, dimension(:), pointer, save flthr

external heat flux used as flux conditions of the 1d thermal model (in unit $W.m^{-2}$).

◆ hpcond

double precision, dimension(:), pointer, save hpcond

value of the thermal exchange coefficient associated to the condensation model used. See the user subroutine cs_user_wall_condensation

◆ ifbpcd

integer, dimension(:), pointer, save ifbpcd

list on the nfbpcd faces in which a condensation source terms is imposed. See ifbpcd and the user subroutine cs_user_wall_condensation

◆ itypcd

integer, dimension(:,:), pointer, save itypcd

type of condensation source terms for each variable

◆ izcophc

integer, dimension(:), pointer, save izcophc

choice the way to compute the exchange coefficient of the condensation source term used by the copain model.

  • 1: the turbulent exchange coefficient of the flow
  • 2: the exchange coefficient of the copain correlation
  • 3: the maximal value between the two previous exchange coefficients

◆ izcophg

integer, dimension(:), pointer, save izcophg

choice the way to compute the thermal exchange coefficient associated to the heat transfer to the wall due to the condensation phenomenon.

  • 2: the thermal exchange coefficient of the copain correlation
  • 3: the maximal value between the current and previous thermal exchange coefficient evaluated by the copain correlation

◆ izzftcd

integer, dimension(:), pointer, save izzftcd

list of the zones associated to the faces where a condensation source term is imposed. On each zone a specific wall temperature and material properties can be specified by the user.

◆ nfbpcd

integer(c_int), pointer, save nfbpcd

number of faces in which a condensation source terms is imposed. See ifbpcd and the user subroutine cs_user_wall_condensation

◆ nzones

integer(c_int), pointer, save nzones

number of the zones with a specific condensation source terms depending on the wall temperature and material properties. by default (nzones = 1) if the user does not specified different zones in the user subroutine cs_user_wall_condensation.f90 .

◆ spcond

double precision, dimension(:,:), pointer, save spcond

value of the condensation source terms for pressure. For the other variables, eventual imposed specific value. See the user subroutine cs_user_wall_condensation

◆ thermal_condensation_flux

double precision, dimension(:), pointer, save thermal_condensation_flux

value of the thermal flux for the condensation model. See the user subroutine cs_user_wall_condensation

◆ twall_cond

double precision, dimension(:), pointer, save twall_cond

Temperature at condensing wall faces (for post-processing purposes)