8.0
general documentation

Main variable field indices (previously stored in rtp, rtpa). More...

+ Collaboration diagram for Main variables:

Variables

integer, save ipr = 0
  pressure More...
 
integer, save iu = 0
  velocity component $ u_x $ More...
 
integer, save iv = 0
  velocity component $ u_y $ More...
 
integer, save iw = 0
  velocity component $ u_z $ More...
 
integer, save ivolf2 = 0
  void fraction for VOF method More...
 
integer, save ik = 0
  turbulent kinetic energy $ k $ More...
 
integer, save iep = 0
  turbulent dissipation $ \varepsilon $ More...
 
integer, save ir11 = 0
  Reynolds stress component $ R_{xx} $ More...
 
integer, save ir22 = 0
  Reynolds stress component $ R_{yy} $ More...
 
integer, save ir33 = 0
  Reynolds stress component $ R_{zz} $ More...
 
integer, save ir12 = 0
  Reynolds stress component $ R_{xy} $ More...
 
integer, save ir23 = 0
  Reynolds stress component $ R_{yz} $ More...
 
integer, save ir13 = 0
  Reynolds stress component $ R_{zz} $ More...
 
integer, save irij = 0
  Reynolds stress tenso $ R_{ij} $ More...
 
integer, save iphi = 0
  variable $ \phi $ of the $ \phi-f_b $ model More...
 
integer, save ifb = 0
  variable $ f_b $ of the $ \phi-f_b $ model More...
 
integer, save ial = 0
  variable $ \alpha $ of the $ Bl-v^2-k $ model More...
 
integer, save iomg = 0
  variable $ \omega $ of the $ k-\omega $ SST More...
 
integer, save inusa = 0
  variable $ \widetilde{\nu}_T $ of the Spalart Allmaras More...
 
integer, dimension(nscamx), save isca
  isca(i) is the index of the scalar i More...
 
integer, dimension(nscamx), save iscapp
  iscapp(i) is the index of the specific physics scalar i More...
 
integer, save nscaus = 0
  number of user scalars solutions of an advection equation More...
 
integer, save nscapp = 0
  number of specific physics scalars More...
 
integer(c_int), pointer, save nscasp
  number of species scalars More...
 
integer, save iuma = 0
  mesh velocity component $ w_x $ More...
 
integer, save ivma = 0
  mesh velocity component $ w_y $ More...
 
integer, save iwma = 0
  mesh velocity component $ w_z $ More...
 

Detailed Description

Main variable field indices (previously stored in rtp, rtpa).

Variable Documentation

◆ ial

integer, save ial = 0

variable $ \alpha $ of the $ Bl-v^2-k $ model

◆ iep

integer, save iep = 0

turbulent dissipation $ \varepsilon $

◆ ifb

integer, save ifb = 0

variable $ f_b $ of the $ \phi-f_b $ model

◆ ik

integer, save ik = 0

turbulent kinetic energy $ k $

◆ inusa

integer, save inusa = 0

variable $ \widetilde{\nu}_T $ of the Spalart Allmaras

◆ iomg

integer, save iomg = 0

variable $ \omega $ of the $ k-\omega $ SST

◆ iphi

integer, save iphi = 0

variable $ \phi $ of the $ \phi-f_b $ model

◆ ipr

integer, save ipr = 0

pressure

◆ ir11

integer, save ir11 = 0

Reynolds stress component $ R_{xx} $

◆ ir12

integer, save ir12 = 0

Reynolds stress component $ R_{xy} $

◆ ir13

integer, save ir13 = 0

Reynolds stress component $ R_{zz} $

◆ ir22

integer, save ir22 = 0

Reynolds stress component $ R_{yy} $

◆ ir23

integer, save ir23 = 0

Reynolds stress component $ R_{yz} $

◆ ir33

integer, save ir33 = 0

Reynolds stress component $ R_{zz} $

◆ irij

integer, save irij = 0

Reynolds stress tenso $ R_{ij} $

◆ isca

integer, dimension(nscamx), save isca

isca(i) is the index of the scalar i

◆ iscapp

integer, dimension(nscamx), save iscapp

iscapp(i) is the index of the specific physics scalar i

◆ iu

integer, save iu = 0

velocity component $ u_x $

◆ iuma

integer, save iuma = 0

mesh velocity component $ w_x $

◆ iv

integer, save iv = 0

velocity component $ u_y $

◆ ivma

integer, save ivma = 0

mesh velocity component $ w_y $

◆ ivolf2

integer, save ivolf2 = 0

void fraction for VOF method

◆ iw

integer, save iw = 0

velocity component $ u_z $

◆ iwma

integer, save iwma = 0

mesh velocity component $ w_z $

◆ nscapp

integer, save nscapp = 0

number of specific physics scalars

◆ nscasp

integer(c_int), pointer, save nscasp

number of species scalars

◆ nscaus

integer, save nscaus = 0

number of user scalars solutions of an advection equation