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Variables
Collaboration diagram for Stokes options:

Variables

integer(c_int), pointer, save ivisse
 take $ \divs \left( \mu \transpose{\gradt \, \vect{u}} - 2/3 \mu \trace{\gradt \, \vect{u}} \right) $ into account in the momentum equation More...
 
integer(c_int), pointer, save irevmc
 Reconstruction of the velocity field with the updated pressure option. More...
 
integer(c_int), pointer, save iprco
 Compute the pressure step thanks to the continuity equation. More...
 
integer(c_int), pointer, save irnpnw
 Compute the normed residual for the pressure step in the prediction step. More...
 
real(c_double), pointer, save rnormp
 normed residual for the pressure step More...
 
real(c_double), pointer, save arak
 Arakawa multiplicator for the Rhie and Chow filter (1 by default) More...
 
integer(c_int), pointer, save ipucou
 Pseudo coupled pressure-velocity solver. More...
 
integer(c_int), pointer, save iccvfg
 
integer(c_int), pointer, save idilat
 Algorithm to take into account the density variation in time. More...
 
real(c_double), pointer, save epsdp
 parameter of diagonal pressure strengthening More...
 
integer, dimension(ntypmx), save idebty
 
integer, dimension(ntypmx), save ifinty
 
integer(c_int), pointer, save itbrrb
 accurate treatment of the wall temperature More...
 
integer, dimension(nscamx), save icpsyr
 indicates if the scalar isca is coupled with syrthes More...
 
integer(c_int), pointer, save iphydr
 improve hydrostatic pressure algorithm More...
 
integer(c_int), pointer, save iifren
 indicates the presence of a Bernoulli boundary face (automatically computed) More...
 
integer(c_int), pointer, save icalhy
 compute the hydrostatic pressure in order to compute the Dirichlet conditions on the pressure at outlets More...
 
integer(c_int), pointer, save icond
 
integer, dimension(nestmx), save iescal
 compute error estimators More...
 

Detailed Description

Variable Documentation

real(c_double), pointer, save arak

Arakawa multiplicator for the Rhie and Chow filter (1 by default)

real(c_double), pointer, save epsdp

parameter of diagonal pressure strengthening

integer(c_int), pointer, save icalhy

compute the hydrostatic pressure in order to compute the Dirichlet conditions on the pressure at outlets

  • 1: true
  • 0: false (default)
integer(c_int), pointer, save iccvfg

calculation with a fixed velocity field

  • 1: true
  • 0: false (default)
integer(c_int), pointer, save icond
integer, dimension(nscamx), save icpsyr

indicates if the scalar isca is coupled with syrthes

  • 1: coupled with syrthes
  • 0: uncoupled
Remarks
only one scalar can be coupled with syrthes
integer, dimension(ntypmx), save idebty
integer(c_int), pointer, save idilat

Algorithm to take into account the density variation in time.

  • 1: dilatable steady algorithm (default)
  • 2: dilatable unsteady algorithm
  • 3: low-Mach algorithm
  • 4: algorithm for fire
integer, dimension(nestmx), save iescal

compute error estimators

  • 1: true
  • 0: false (default)
integer, dimension(ntypmx), save ifinty
integer(c_int), pointer, save iifren

indicates the presence of a Bernoulli boundary face (automatically computed)

  • 0: no face
  • 1: at least one face
integer(c_int), pointer, save iphydr

improve hydrostatic pressure algorithm

  • 1: impose the equilibrium of the hydrostaic part of the pressure with any external force, even head losses
  • 2: compute an hydrostatic pressure due to buoyancy forces before the prediction step
  • 0: no treatment (default)
integer(c_int), pointer, save iprco

Compute the pressure step thanks to the continuity equation.

  • 1: true (default)
  • 0: false
integer(c_int), pointer, save ipucou

Pseudo coupled pressure-velocity solver.

  • 1: true
  • 0: false (default)
integer(c_int), pointer, save irevmc

Reconstruction of the velocity field with the updated pressure option.

  • 0: default
integer(c_int), pointer, save irnpnw

Compute the normed residual for the pressure step in the prediction step.

  • 1: true (default)
  • 0: false
integer(c_int), pointer, save itbrrb

accurate treatment of the wall temperature

  • 1: true
  • 0: false (default) (see condli, useful in case of coupling with syrthes)
integer(c_int), pointer, save ivisse

take $ \divs \left( \mu \transpose{\gradt \, \vect{u}} - 2/3 \mu \trace{\gradt \, \vect{u}} \right) $ into account in the momentum equation

  • 1: true (default)
  • 0: false
real(c_double), pointer, save rnormp

normed residual for the pressure step