|  | programmer's documentation | 
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| Variables | |
| integer, save | nfpt1d | 
| number of boundary faces which are coupled with a wall 1D thermal module. See the user subroutine uspt1d  More... | |
| integer, save | nmxt1d | 
| integer, dimension(:), allocatable | izft1d | 
| zones of t1d, dimensioned with nfabor (TODO)  More... | |
| integer, dimension(:), allocatable | nppt1d | 
| number of discretisation cells in the 1D wall for the nfpt1dboundary faces which are coupled with a wall 1D thermal module. The number of cells for these boundary faces is given bynppt1d(ii), with 1 <= ii <= nfpt1d. See the user subroutine uspt1d  More... | |
| integer, dimension(:), allocatable | ifpt1d | 
| array allowing to mark out the numbers of the nfpt1dboundary faces which are coupled with a wall 1D thermal module. The numbers of these boundary faces are given byifpt1d(ii), with 1 <= ii <=nfpt1d. See the user subroutine uspt1d  More... | |
| integer, dimension(:), allocatable | iclt1d | 
| typical boundary condition at the external (pseudo) wall: Dirichlet condition ( iclt1d=1) or flux condition (iclt1d=3)  More... | |
| double precision, dimension(:), allocatable | eppt1d | 
| thickness of the 1D wall for the nfpt1dboundary faces which are coupled with a wall 1D thermal module. The wall thickness for these boundary faces is therefore given byeppt1d(ii), with 1 <= ii <=nfpt1d. See the user subroutine uspt1d  More... | |
| double precision, dimension(:), allocatable | rgpt1d | 
| geometry of the pseudo wall mesh (refined as a fluid if rgt1dis smaller than 1  More... | |
| double precision, dimension(:), allocatable | tppt1d | 
| initialisation temperature of the wall (uniform in thickness). In the course of the calculation, the array stores the temperature of the solid at the fluid/solid interface.  More... | |
| double precision, dimension(:), allocatable | tept1d | 
| external temperature of the pseudo wall in the Dirichlet case.  More... | |
| double precision, dimension(:), allocatable | hept1d | 
| external coefficient of transfer in the pseudo wall under Dirichlet conditions (in  ).  More... | |
| double precision, dimension(:), allocatable | fept1d | 
| external heat flux in the pseudo wall under the flux conditions (in  , negative value for energy entering the wall).  More... | |
| double precision, dimension(:), allocatable | xlmbt1 | 
| thermal diffusivity  More... | |
| double precision, dimension(:), allocatable | rcpt1d | 
| volumetric heat capacity  of the wall uniform in thickness (in  ).  More... | |
| double precision, dimension(:), allocatable | dtpt1d | 
| physical time step associated with the solved 1D equation of the pseudo wall (which can be different from the time step in the calculation).  More... | |
| double precision, dimension(:), allocatable dtpt1d | 
physical time step associated with the solved 1D equation of the pseudo wall (which can be different from the time step in the calculation).
| double precision, dimension(:), allocatable eppt1d | 
thickness of the 1D wall for the nfpt1d boundary faces which are coupled with a wall 1D thermal module. The wall thickness for these boundary faces is therefore given by eppt1d(ii), with 1 <= ii <= nfpt1d. See the user subroutine uspt1d 
| double precision, dimension(:), allocatable fept1d | 
external heat flux in the pseudo wall under the flux conditions (in  , negative value for energy entering the wall).
, negative value for energy entering the wall). 
| double precision, dimension(:), allocatable hept1d | 
external coefficient of transfer in the pseudo wall under Dirichlet conditions (in  ).
). 
| integer, dimension(:), allocatable iclt1d | 
typical boundary condition at the external (pseudo) wall: Dirichlet condition (iclt1d=1) or flux condition (iclt1d=3) 
| integer, dimension(:), allocatable ifpt1d | 
array allowing to mark out the numbers of the nfpt1d boundary faces which are coupled with a wall 1D thermal module. The numbers of these boundary faces are given by ifpt1d(ii), with 1 <= ii <= nfpt1d. See the user subroutine uspt1d 
| integer, dimension(:), allocatable izft1d | 
zones of t1d, dimensioned with nfabor (TODO)
| integer, save nfpt1d | 
number of boundary faces which are coupled with a wall 1D thermal module. See the user subroutine uspt1d
| integer, save nmxt1d | 
| integer, dimension(:), allocatable nppt1d | 
number of discretisation cells in the 1D wall for the nfpt1d boundary faces which are coupled with a wall 1D thermal module. The number of cells for these boundary faces is given by nppt1d(ii), with 1 <= ii <= nfpt1d. See the user subroutine uspt1d 
| double precision, dimension(:), allocatable rcpt1d | 
volumetric heat capacity  of the wall uniform in thickness (in
 of the wall uniform in thickness (in  ).
). 
| double precision, dimension(:), allocatable rgpt1d | 
geometry of the pseudo wall mesh (refined as a fluid if rgt1d is smaller than 1 
| double precision, dimension(:), allocatable tept1d | 
external temperature of the pseudo wall in the Dirichlet case.
| double precision, dimension(:), allocatable tppt1d | 
initialisation temperature of the wall (uniform in thickness). In the course of the calculation, the array stores the temperature of the solid at the fluid/solid interface.
| double precision, dimension(:), allocatable xlmbt1 | 
thermal diffusivity
 1.8.3.1
 1.8.3.1