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programmer's documentation
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Variables | |
integer | nscamx |
maximum number of scalars solutions of an advection equation, apart from the variables of the turbulence model ![]() | |
integer | nvarmx |
maximal number of variables = nscamx + 12 (u,v,w,P,Rij,e,alp) More... | |
integer | nprcmx |
maximal number of physical properties at cells. = nscamx (Lambda) + 7 (rho,Cp,viscl,visct,cou,fou,iprtot) + 4 (estim) More... | |
integer | nprfmx |
maximal number of physical properties at internal faces. = nscamx (flumas) + 2*(flumas,alp) More... | |
integer | nprbmx |
maximal number of physical properties at external faces. = nscamx (flumab) + 3*(flumab,alp, romb) More... | |
integer | npromx |
maximal number of physical properties, increased by nprcmx. They will be stored in the arrays propce More... | |
integer | ngrdmx |
maximal number of physical quantities = nvarmx + npromx More... | |
integer | nsmamx |
maximal size of mass source terms arrays. (= nvarmx + 1 for smacel) More... | |
integer | nvppmx |
number of displayed variables. = ngrdmx + 20 (20 > dt, tpucou, increased by 16 ...) More... | |
integer | ntypmx |
Maximal possible boundary condition types. More... | |
integer | iindef |
integer | ientre |
integer | isolib |
integer | isymet |
integer | iparoi |
integer | iparug |
integer | iesicf |
if itypfb=iesicf: imposed inlet/outlet for compressible flow (for example, supersonic inlet). More... | |
integer | isspcf |
if itypfb=isspcf: supersonic outlet for compressible flow. More... | |
integer | isopcf |
if itypfb=isopcf: mixed outlet for compressible flow with a given pressure. More... | |
integer | iephcf |
if itypfb=isopcf: mixed inlet for compressible flow with given total pressure and total enthalpy (reservoir boundary conditions). More... | |
integer | ieqhcf |
integer | icscpl |
integer | ifrent |
integer | nestmx |
maximal number of valuators for Navier-Stokes More... | |
integer | iespre |
error estimator for Navier-Stokes. iest = iespre: prediction, (default name: EsPre). After the velocity prediction step (yielding ![]() ![]() ![]() ![]() ![]() ![]()
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integer | iesder |
error estimator for Navier-Stokes. iest = iesder: drift (default name: EsDer). The estimator ![]()
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integer | iescor |
error estimator for Navier-Stokes. iest = iescor: correction, (default name: EsCor). The estimator ![]()
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integer | iestot |
error estimator for Navier-Stokes. iest = iestot: total, (default name: EsTot). The estimator ![]() ![]() ![]() ![]() ![]()
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integer | nbmomx |
maximum number of calculated time-averages (default value: 50) More... | |
integer | ndgmox |
maximum degree of the time-averages (default value: 5) More... | |
integer | ibfixe |
integer | igliss |
integer | ivimpo |
integer | ifresf |
integer | nstrmx |
maximum number of structures in ALE More... | |
integer | nflown |
number of variable of rtp moved in field structure (C transition) More... | |
integer icscpl |
integer ientre |
integer iephcf |
if itypfb=isopcf: mixed inlet for compressible flow with given total pressure and total enthalpy (reservoir boundary conditions).
integer ieqhcf |
integer iescor |
error estimator for Navier-Stokes. iest = iescor: correction, (default name: EsCor). The estimator comes directly from the mass flow calculated with the updated velocity field:
integer iesder |
error estimator for Navier-Stokes. iest = iesder: drift (default name: EsDer). The estimator is based on the following quantity (intrinsic to the code):
integer iesicf |
if itypfb=iesicf: imposed inlet/outlet for compressible flow (for example, supersonic inlet).
integer iespre |
error estimator for Navier-Stokes. iest = iespre: prediction, (default name: EsPre). After the velocity prediction step (yielding ), the estimator
, local variable calculated at every cell
, is created from
, which represents the residual of the equation solved during this step:
and
:
integer iestot |
error estimator for Navier-Stokes. iest = iestot: total, (default name: EsTot). The estimator , local variable calculated at every cell
, is based on the quantity
, which represents the residual of the equation using the updated values of
and
:
integer ifrent |
if itypfb=ifrent: free entrance based on Bernoulli equation when the flow is incoming, standard outlet when outgoing
integer iparoi |
if itypfb=iparoi: smooth solid wall face, impermeable and with friction.
integer iparug |
if itypfb=iparug: rough solid wall face, impermeable and with friction.
integer isolib |
if itypfb=isolib: free outlet face (or more precisely free inlet/outlet with forced pressure)
integer isopcf |
if itypfb=isopcf: mixed outlet for compressible flow with a given pressure.
integer isspcf |
if itypfb=isspcf: supersonic outlet for compressible flow.
integer isymet |
integer ivimpo |
boundary condition type for mesh velocity in ALE: imposed velocity.
integer nbmomx |
maximum number of calculated time-averages (default value: 50)
integer ndgmox |
maximum degree of the time-averages (default value: 5)
integer nestmx |
maximal number of valuators for Navier-Stokes
integer nflown |
number of variable of rtp moved in field structure (C transition)
integer ngrdmx |
maximal number of physical quantities = nvarmx + npromx
integer nprbmx |
maximal number of physical properties at external faces. = nscamx (flumab) + 3*(flumab,alp, romb)
integer nprcmx |
maximal number of physical properties at cells. = nscamx (Lambda) + 7 (rho,Cp,viscl,visct,cou,fou,iprtot) + 4 (estim)
integer nprfmx |
maximal number of physical properties at internal faces. = nscamx (flumas) + 2*(flumas,alp)
integer npromx |
maximal number of physical properties, increased by nprcmx. They will be stored in the arrays propce
integer nscamx |
maximum number of scalars solutions of an advection equation, apart from the variables of the turbulence model ) , that is to say the temperature and other scalars (passive or not, user-defined or not)
integer nsmamx |
maximal size of mass source terms arrays. (= nvarmx + 1 for smacel)
integer nstrmx |
maximum number of structures in ALE
integer ntypmx |
Maximal possible boundary condition types.
integer nvarmx |
maximal number of variables = nscamx + 12 (u,v,w,P,Rij,e,alp)
integer nvppmx |
number of displayed variables. = ngrdmx + 20 (20 > dt, tpucou, increased by 16 ...)