incomp-flame-post/code/m_terms.f90
2019-04-22 15:41:40 +09:00

272 lines
6.3 KiB
Fortran

module m_terms
use m_parameters
use m_arrays
use m_calculate
implicit none
real*8, allocatable, dimension(:,:,:) :: c_auto
real*8, allocatable, dimension(:,:,:) :: fsd_auto
real*8, allocatable, dimension(:,:,:) :: wrate_auto
real*8, allocatable, dimension(:,:,:) :: ddz_c_auto
real*8, allocatable, dimension(:,:,:) :: ddy_c_auto
real*8, allocatable, dimension(:,:,:) :: ddx_c_auto
real*8, allocatable, dimension(:) :: avg_fsd_auto
real*8, allocatable, dimension(:) :: fsd_auto_avg_0
real*8, allocatable, dimension(:) :: avg_c_auto
real*8, allocatable, dimension(:) :: c_auto_avg_2
real*8, allocatable, dimension(:) :: y_avg_2
real*8, allocatable, dimension(:) :: c_auto_avg_1
real*8, allocatable, dimension(:) :: y_avg_0
real*8, allocatable, dimension(:) :: y_avg_1
real*8, allocatable, dimension(:) :: avg_0
real*8, allocatable, dimension(:) :: avg_1
real*8, allocatable, dimension(:) :: avg_2
real*8, allocatable, dimension(:) :: c_auto_avg_0
real*8, allocatable, dimension(:) :: avg_y
contains
subroutine m_terms_init
integer :: ierr
allocate(c_auto(nxp,nyp,nzp), stat=ierr) ; c_auto = 0.
allocate(fsd_auto(nxp,nyp,nzp), stat=ierr) ; fsd_auto = 0.
allocate(wrate_auto(nxp,nyp,nzp), stat=ierr) ; wrate_auto = 0.
allocate(ddz_c_auto(nxp,nyp,nzp), stat=ierr) ; ddz_c_auto = 0.
allocate(ddy_c_auto(nxp,nyp,nzp), stat=ierr) ; ddy_c_auto = 0.
allocate(ddx_c_auto(nxp,nyp,nzp), stat=ierr) ; ddx_c_auto = 0.
allocate(avg_fsd_auto(nxp), stat=ierr) ; avg_fsd_auto = 0.
allocate(fsd_auto_avg_0(nxp), stat=ierr) ; fsd_auto_avg_0 = 0.
allocate(avg_c_auto(nxp), stat=ierr) ; avg_c_auto = 0.
allocate(c_auto_avg_2(nxp), stat=ierr) ; c_auto_avg_2 = 0.
allocate(y_avg_2(nxp), stat=ierr) ; y_avg_2 = 0.
allocate(c_auto_avg_1(nxp), stat=ierr) ; c_auto_avg_1 = 0.
allocate(y_avg_0(nxp), stat=ierr) ; y_avg_0 = 0.
allocate(y_avg_1(nxp), stat=ierr) ; y_avg_1 = 0.
allocate(avg_0(nxp), stat=ierr) ; avg_0 = 0.
allocate(avg_1(nxp), stat=ierr) ; avg_1 = 0.
allocate(avg_2(nxp), stat=ierr) ; avg_2 = 0.
allocate(c_auto_avg_0(nxp), stat=ierr) ; c_auto_avg_0 = 0.
allocate(avg_y(nxp), stat=ierr) ; avg_y = 0.
end subroutine m_terms_init
subroutine m_terms_finalize
deallocate(c_auto)
deallocate(fsd_auto)
deallocate(wrate_auto)
deallocate(ddz_c_auto)
deallocate(ddy_c_auto)
deallocate(ddx_c_auto)
deallocate(avg_fsd_auto)
deallocate(fsd_auto_avg_0)
deallocate(avg_c_auto)
deallocate(c_auto_avg_2)
deallocate(y_avg_2)
deallocate(c_auto_avg_1)
deallocate(y_avg_0)
deallocate(y_avg_1)
deallocate(avg_0)
deallocate(avg_1)
deallocate(avg_2)
deallocate(c_auto_avg_0)
deallocate(avg_y)
end subroutine m_terms_finalize
subroutine m_terms_calculate_pass1
integer :: i, j, k
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_1(i) = avg_1(i) + v(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
c_auto(i,j,k) = ( 1.0 - y(i,j,k) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_c_auto(i) = avg_c_auto(i) + c_auto(i,j,k)
end do
end do
end do
call ddz ( ddz_c_auto, c_auto )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
c_auto_avg_2(i) = c_auto_avg_2(i) + w(i,j,k) * c_auto(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
c_auto_avg_1(i) = c_auto_avg_1(i) + v(i,j,k) * c_auto(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
c_auto_avg_0(i) = c_auto_avg_0(i) + u(i,j,k) * c_auto(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
y_avg_2(i) = y_avg_2(i) + w(i,j,k) * y(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
y_avg_0(i) = y_avg_0(i) + u(i,j,k) * y(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
y_avg_1(i) = y_avg_1(i) + v(i,j,k) * y(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_0(i) = avg_0(i) + u(i,j,k)
end do
end do
end do
call ddy ( ddy_c_auto, c_auto )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_2(i) = avg_2(i) + w(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_y(i) = avg_y(i) + y(i,j,k)
end do
end do
end do
call ddx ( ddx_c_auto, c_auto )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_auto(i,j,k) = ( sqrt ( ( ( ((ddx_c_auto(i,j,k))*(ddx_c_auto(i,j,k))) + ((ddy_c_auto(i,j,k))*(ddy_c_auto(i,j,k))) ) + ((ddz_c_auto(i,j,k))*(ddz_c_auto(i,j,k))) ) ) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_auto_avg_0(i) = fsd_auto_avg_0(i) + u(i,j,k) * fsd_auto(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_fsd_auto(i) = avg_fsd_auto(i) + fsd_auto(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
wrate_auto(i,j,k) = ( rxn_rate ( c_auto(i,j,k) ) )
end do
end do
end do
end subroutine m_terms_calculate_pass1
subroutine m_terms_average_pass1 (nfiles)
integer :: nfiles
real*8 :: denum
denum=real(nfiles*nyp*nzp)
avg_y = avg_y / denum
avg_2 = avg_2 / denum
avg_1 = avg_1 / denum
avg_0 = avg_0 / denum
avg_c_auto = avg_c_auto / denum
avg_fsd_auto = avg_fsd_auto / denum
fsd_auto_avg_0 = fsd_auto_avg_0 / denum / avg_fsd_auto
c_auto_avg_2 = c_auto_avg_2 / denum / avg_c_auto
y_avg_2 = y_avg_2 / denum / avg_y
c_auto_avg_1 = c_auto_avg_1 / denum / avg_c_auto
y_avg_0 = y_avg_0 / denum / avg_y
y_avg_1 = y_avg_1 / denum / avg_y
c_auto_avg_0 = c_auto_avg_0 / denum / avg_c_auto
end subroutine m_terms_average_pass1
end module m_terms
! {'c_auto': '( 1.0 - y(i,j,k) )', 'fsd_auto': '( sqrt ( ( ( ((ddx_c_auto(i,j,k))*(ddx_c_auto(i,j,k))) + ((ddy_c_auto(i,j,k))*(ddy_c_auto(i,j,k))) ) + ((ddz_c_auto(i,j,k))*(ddz_c_auto(i,j,k))) ) ) )', 'wrate_auto': '( rxn_rate ( c_auto(i,j,k) ) )'}
! {'ddz_c_auto': ('ddz', 'c_auto'), 'ddy_c_auto': ('ddy', 'c_auto'), 'ddx_c_auto': ('ddx', 'c_auto')}
! {'fsd_auto': ['ddx_c_auto', 'ddy_c_auto', 'ddz_c_auto'], 'avg_fsd_auto': ['fsd_auto'], u'c_auto_avg_2': ['c_auto'], 'avg_c_auto': ['c_auto'], 'avg_1': [], 'ddz_c_auto': ['c_auto'], 'c_auto': [], u'y_avg_2': [], u'c_auto_avg_1': ['c_auto'], u'y_avg_0': [], u'y_avg_1': [], 'avg_0': [], 'ddy_c_auto': ['c_auto'], 'avg_2': [], u'c_auto_avg_0': ['c_auto'], 'avg_y': [], u'fsd_auto_avg_0': ['fsd_auto'], 'ddx_c_auto': ['c_auto'], 'wrate_auto': ['c_auto']}
! ['avg_1', 'c_auto', 'avg_c_auto', 'ddz_c_auto', u'c_auto_avg_2', u'c_auto_avg_1', u'c_auto_avg_0', u'y_avg_2', u'y_avg_0', u'y_avg_1', 'avg_0', 'ddy_c_auto', 'avg_2', 'avg_y', 'ddx_c_auto', 'fsd_auto', u'fsd_auto_avg_0', 'avg_fsd_auto', 'wrate_auto']