Local variables to be added
integer ifac, izone, ii
integer ilelt, nlelt
double precision uref2, xkent, xeent, d2s3
integer, allocatable, dimension(:) :: lstelt
Initialization and finalization
Initialization and finalization is similar to that of the base examples
Example 1
Definition of a burned gas inlet (pilot flame) for each face of colour 11
do ilelt = 1, nlelt
ifac = lstelt(ilelt)
izone = 1
ientgb(izone) = 1
rcodcl(ifac,
iw,1) = 21.47d0
fment(izone) = 1.d0*
fs(1)
tkent(izone) = 2000.d0
uref2 = rcodcl(ifac,
iu,1)**2 &
uref2 = max(uref2,1.d-12)
xkent, xeent )
rcodcl(ifac,
ik,1) = xkent
rcodcl(ifac,
iep,1) = xeent
rcodcl(ifac,
ir11,1) = d2s3*xkent
rcodcl(ifac,
ir22,1) = d2s3*xkent
rcodcl(ifac,
ir33,1) = d2s3*xkent
rcodcl(ifac,
ir12,1) = 0.d0
rcodcl(ifac,
ir13,1) = 0.d0
rcodcl(ifac,
ir23,1) = 0.d0
rcodcl(ifac,
iep,1) = xeent
elseif (
iturb.eq.50)
then
rcodcl(ifac,
ik,1) = xkent
rcodcl(ifac,
iep,1) = xeent
rcodcl(ifac,
iphi,1) = d2s3
rcodcl(ifac,
ifb,1) = 0.d0
elseif (
iturb.eq.60)
then
rcodcl(ifac,
ik,1) = xkent
rcodcl(ifac,
iomg,1) = xeent/
cmu/xkent
elseif (
iturb.eq.70)
then
rcodcl(ifac,
inusa,1) =
cmu*xkent**2/xeent
endif
endif
enddo
Example 2
Definition of an unburned gas inlet for each face of colour 12
do ilelt = 1, nlelt
ifac = lstelt(ilelt)
izone = 2
ientgf(izone) = 1
rcodcl(ifac,
iu,1) = 60.d0
fment(izone) = 8.d-1*
fs(1)
tkent(izone) = 600.d0
enddo
Example 3
Definition of a wall for each face of colour 51 and 5
do ilelt = 1, nlelt
ifac = lstelt(ilelt)
izone = 4
enddo
Example 4
Definition of an exit for each face of colour 91 and 9
do ilelt = 1, nlelt
ifac = lstelt(ilelt)
izone = 5
enddo
Example 5
Definition of symmetric boundary conditions for each face of colour 41 and 4.
do ilelt = 1, nlelt
ifac = lstelt(ilelt)
izone = 6
enddo