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filer.f90
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filer.f90
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subroutine filer_final()
use variables
implicit none
open (11,file='information.dat',position='append')
write(11,*) ' '
write(11,*) '======================================================='
write(11,*) 'total cost time = ',totalcosttime,'sec'
write(11,*) 'final time = ',time,'sec'
write(11,*) '======================================================='
write(11,*) ' '
close(11)
close(21)
close(31)
end subroutine filer_final
subroutine filerInfo()
use variables
implicit none
open (1,file='information.dat',position='append')
write(1,*) '!-----------------------------------------------------------!'
write(1,*) '! Finite Volume Method by projection method with mpi !'
write(1,*) '!-----------------------------------------------------------!'
write(1,*) ' '
write(1,*) '======================================================='
write(1,*) 'number of processor(MPI) = ',nproc
write(1,*) 'number of threads(OpenMP) = ',nthreads
write(1,*) 'number of grid = ',nx*ny*nz
write(1,*) 'AOA = ',AOA
write(1,*) ' '
write(1,*) 'nx = ',nx
write(1,*) 'ny = ',ny
write(1,*) 'nz = ',nz
write(1,*) ' '
write(1,*) 'dt = ',dt
write(1,*) 'CFL = ', dt / dzSml + dt / dySml
write(1,*) ' '
write(1,*) 'DFIB xc = ',xc
write(1,*) 'DFIB yc = ',yc
write(1,*) 'DFIB zc = ',zc
write(1,*) ' '
write(1,*) 'Re = ',Re
write(1,*) ' '
if(Gridder=='non-uniform')then
write(1,*) '====================non-uniform========================'
!write(1,*) 'nxSml = ',nxSml
write(1,*) 'nySml = ',nySml
write(1,*) 'nzSml = ',nzSml
write(1,*) ' '
write(1,*) 'x-direction length = ',lx
write(1,*) 'y-direction length = ',ly
write(1,*) 'z-direction length = ',lz
write(1,*) ' '
write(1,*) 'x-direction small length = ',lxSml
write(1,*) 'y-direction small length = ',lySml
write(1,*) 'z-direction small length = ',lzSml
write(1,*) ' '
write(1,*) 'dx = ',dx
write(1,*) 'Large dy = ',dy
write(1,*) 'Large dz = ',dz
write(1,*) ' '
write(1,*) 'Middle dy = ',dyMid
write(1,*) 'Middle dz = ',dzMid
write(1,*) ' '
!write(1,*) 'Small dx = ',dxSml
write(1,*) 'Small dy = ',dySml
write(1,*) 'Small dz = ',dzSml
write(1,*) ' '
write(1,*) 'Small grid xc = ',GridderXc
write(1,*) 'Small grid yc = ',GridderYc
write(1,*) 'Small grid zc = ',GridderZc
write(1,*) ' '
write(1,*) 'lxSml = ',lxSml
write(1,*) 'lySml = ',lySml
write(1,*) 'lzSml = ',lzSml
write(1,*) '====================non-uniform========================'
write(1,*) ' '
end if
if(Gridder=='uniform')then
write(1,*) '=====================uniform==========================='
write(1,*) 'x-direction length = ',lx
write(1,*) 'y-direction length = ',ly
write(1,*) 'z-direction length = ',lz
write(1,*) ' '
write(1,*) 'dx = ',dx
write(1,*) 'dy = ',dy
write(1,*) 'dz = ',dz
write(1,*) '=====================uniform==========================='
write(1,*) ' '
endif
if (steadiness == 1) then; write(1,*) 'steadiness = steady'
else if(steadiness == 2) then; write(1,*) 'steadiness = unsteady'
end if
write(1,*) '======================================================='
write(1,*) ' '
write(1,*) '======================================================='
if (DBD == 1) then; write(1,*) 'DBD actuator on'
else if(DBD == 0) then; write(1,*) 'DBD actuator off'
end if
write(1,*) '======================================================='
write(1,*) ' '
write(1,*) '======================================================='
if (LES == 1) then; write(1,*) 'LES mode on'
else if(LES == 0) then; write(1,*) 'LES mode off'
end if
write(1,*) 'LES Cs = ',Cs
write(1,*) '======================================================='
write(1,*) ' '
write(1,*) '======================================================='
write(1,*) 'dt = ',dt
write(1,*) 'max time step = ',nstep*dt,'sec'
write(1,*) 'each time step = ',isto*dt,'sec'
write(1,*) '======================================================='
write(1,*) ' '
write(1,*) '======================================================='
write(1,*) 'p Residual =',zeta
write(1,*) 'velocity Residual =',zeta_vel
write(1,*) '======================================================='
close(1)
open (21,file='CD_Time.dat',position='append')
write(21,*) ' TITLE = "" '
write(21,*) ' VARIABLES = t(sec),C<sub>D</sub>,C<sub>L</sub> '
open (31,file='CD_AOA.dat',position='append')
write(31,*) ' TITLE = "" '
write(31,*) ' VARIABLES = AOA,C<sub>D</sub>,C<sub>L</sub> '
end subroutine filerInfo
subroutine filerProcess()
use variables
implicit none
write(21,*) time, cDrag, cLift
write(31,*) AOA, cDrag, cLift
end subroutine filerProcess
subroutine filereachtime()
use variables
implicit none
do k=1,nz; do j=1,ny; do i=1,nx
Qout(i,j,k,1)=pre(i,j,k)
Qout(i,j,k,2)=uc(i,j,k)
Qout(i,j,k,3)=vc(i,j,k)
Qout(i,j,k,4)=wc(i,j,k)
Qout(i,j,k,5)=ETA(i,j,k)
!Qout(i,j,k,6)=F_tavex(i,j,k)
enddo; enddo; enddo
write(filename,'(I4.4)')num
fileformat = '.q'
open (17,file=TRIM(filename)//fileformat,position='append',form='unformatted')
write(17) nblocks
write(17) nx, ny, nz
write(17) temp, temp, temp, temp
write(17) ( ( ( ( Qout(i,j,k,h), i = 1, nx), j = 1, ny), k = 1, nz), h = 1, 5 )
close(17)
num = num + 1
end subroutine filereachtime