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programmer's documentation
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Variables | |
double precision, dimension(:,:), allocatable | coefau |
boundary conditions for the velocity vector with the coupled velocity components algorithm (ivelco=1 ): see Note 2: internal faces More... | |
double precision, dimension(:,:), allocatable | cofafu |
boundary conditions for the velocity diffusion flux with the coupled velocity components algorithm (ivelco=1 ): see Note 2: internal faces More... | |
double precision, dimension(:,:), allocatable | cofacu |
boundary conditions for the velocity convective flux (only for compressible flows). More... | |
double precision, dimension(:,:,:), allocatable | coefbu |
boundary conditions for the velocity vector with the coupled velocity components algorithm (ivelco=1 ): see Note 2: internal faces More... | |
double precision, dimension(:,:,:), allocatable | cofbfu |
boundary conditions for the velocity diffusion flux with the coupled velocity components algorithm (ivelco=1 ): see Note 2: internal faces More... | |
double precision, dimension(:,:,:), allocatable | cofbcu |
boundary conditions for the velocity convective flux (only for compressible flows). More... | |
double precision, dimension(:,:), allocatable | cfaale |
explicit Boundary conditions for the mesh velocity. dim = (3,nfabor) More... | |
double precision, dimension(:,:), allocatable | claale |
explicit Boundary conditions for the mesh velocity. dim = (3,nfabor) More... | |
double precision, dimension(:,:,:), allocatable | cfbale |
implicit Boundary conditions for the mesh velocity. dim = (3,3,nfabor) More... | |
double precision, dimension(:,:,:), allocatable | clbale |
implicit Boundary conditions for the mesh velocity. dim = (3,3,nfabor) More... | |
integer, dimension(:), allocatable | itypfb |
boundary condition type at the boundary face ifac (see user subroutine cs_user_boundary_conditions) More... | |
integer, dimension(:), allocatable | itrifb |
indirection array allowing to sort the boundary faces according to their boundary condition type itypfb More... | |
integer, dimension(:), allocatable | izfppp |
to identify boundary zones associated with boundary faces (particular physics) More... | |
integer, dimension(:), allocatable | izfrad |
to identify boundary zones associated with boundary faces (radiative transfert) More... | |
integer, dimension(:), allocatable | ifapat |
number of the wall face (type itypfb=iparoi or iparug ) which is closest to the center of a given volume when necessary ( ![]() ![]() icdpar=2 . The number of the wall face which is the closest to the center of the cell iel is ifapat(iel1) . This calculation method is not compatible with parallelism and periodicity More... | |
integer, dimension(:), allocatable | idfstr |
the index of the structure, (idfstr(ifac) where ifac is the index of the face), 0 if the face is not coupled to any structure. More... | |
double precision, dimension(:), allocatable | s2kw |
square of the norm of the deviatoric part of the deformation rate tensor ( ![]() ![]() | |
double precision, dimension(:), allocatable | divukw |
divergence of the velocity. More precisely it is the trace of the velocity gradient (and not a finite volume divergence term). In the cell iel , ![]() divukw(iel1) . This array is defined only with the ![]() ![]() | |
double precision, dimension(:,:), allocatable | straio |
strain rate tensor at the previous time step More... | |
double precision, dimension(:,:), allocatable cfaale |
explicit Boundary conditions for the mesh velocity. dim = (3,nfabor)
double precision, dimension(:,:,:), allocatable cfbale |
implicit Boundary conditions for the mesh velocity. dim = (3,3,nfabor)
double precision, dimension(:,:), allocatable claale |
explicit Boundary conditions for the mesh velocity. dim = (3,nfabor)
double precision, dimension(:,:,:), allocatable clbale |
implicit Boundary conditions for the mesh velocity. dim = (3,3,nfabor)
double precision, dimension(:,:), allocatable coefau |
boundary conditions for the velocity vector with the coupled velocity components algorithm (ivelco=1
): see Note 2: internal faces
double precision, dimension(:,:,:), allocatable coefbu |
boundary conditions for the velocity vector with the coupled velocity components algorithm (ivelco=1
): see Note 2: internal faces
double precision, dimension(:,:), allocatable cofacu |
boundary conditions for the velocity convective flux (only for compressible flows).
double precision, dimension(:,:), allocatable cofafu |
boundary conditions for the velocity diffusion flux with the coupled velocity components algorithm (ivelco=1
): see Note 2: internal faces
double precision, dimension(:,:,:), allocatable cofbcu |
boundary conditions for the velocity convective flux (only for compressible flows).
double precision, dimension(:,:,:), allocatable cofbfu |
boundary conditions for the velocity diffusion flux with the coupled velocity components algorithm (ivelco=1
): see Note 2: internal faces
double precision, dimension(:), allocatable divukw |
divergence of the velocity. More precisely it is the trace of the velocity gradient (and not a finite volume divergence term). In the cell iel
, is given by
divukw(iel1)
. This array is defined only with the SST turbulence model (because in this case it may be calculated at the same time as
)
integer, dimension(:), allocatable idfstr |
the index of the structure, (idfstr(ifac)
where ifac
is the index of the face), 0 if the face is not coupled to any structure.
integer, dimension(:), allocatable ifapat |
number of the wall face (type itypfb=iparoi
or iparug
) which is closest to the center of a given volume when necessary ( with wall echo, LES with van Driest-wall damping, or
(SST) turbulence model) and when
icdpar=2
. The number of the wall face which is the closest to the center of the cell iel
is ifapat(iel1)
. This calculation method is not compatible with parallelism and periodicity
integer, dimension(:), allocatable itrifb |
indirection array allowing to sort the boundary faces according to their boundary condition type itypfb
integer, dimension(:), allocatable itypfb |
boundary condition type at the boundary face ifac
(see user subroutine cs_user_boundary_conditions)
integer, dimension(:), allocatable izfppp |
to identify boundary zones associated with boundary faces (particular physics)
integer, dimension(:), allocatable izfrad |
to identify boundary zones associated with boundary faces (radiative transfert)
double precision, dimension(:), allocatable s2kw |
square of the norm of the deviatoric part of the deformation rate tensor ( ). This array is defined only with the
(SST) turbulence model
double precision, dimension(:,:), allocatable straio |
strain rate tensor at the previous time step