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MODULE PCRDATA
!
!-----------------------------------------------------------------------
!
!Purpose:
! Fortran module containing PMAXS file information.
!
!Copyright:
! Copyright (C) 2019 Ecole Polytechnique de Montreal
!
!Author(s): A. Hebert
!
!-----------------------------------------------------------------------
!
IMPLICIT NONE
INTEGER(4), PARAMETER :: Nallvar=12
REAL(8) :: state_value(Nallvar)
CHARACTER(2) :: all_var_nam(Nallvar)
DATA all_var_nam/'CR','DC','PC','TF','TC','IC','DM','PM','TM','IM','DN','BN'/
INTEGER(4), PARAMETER :: svCR=1,svDC=2,svPC=3,svTF=4,svTC=5
INTEGER(4), PARAMETER :: svIC=6,svDM=7,svPM=8,svTM=9,svIM=10
INTEGER(4), PARAMETER :: svDN=11,svBN=12
REAL(8) :: Sref(Nallvar)
DATA Sref/0.0, 0.71, 600.0, 28.3, 580.0, 0.0, 0.71, 600.0, 580.0, 0.0, 0.0, 0.0 /
LOGICAL :: validname
LOGICAL :: lHST(Nallvar), lSTT(Nallvar)
CHARACTER(12) :: formng
CHARACTER(3) :: TIVname(4)
INTEGER(4), PARAMETER :: xtr=1,xab=2,xnf=3,xkf=4,xxe=5,xsm=6,xfi=7
INTEGER(4), PARAMETER :: xdcl=1,xdwr=2,xdbp=3,xdcr=4,xchi=1,BBET=1
INTEGER(4) :: xchd,xinv, EBET,BLAM,ELAM,BDHB,EDHB,BDHL,EDHL
INTEGER(4) :: xlpk,xj1i,xj1s,xj1c
INTEGER(4) :: NXST,NLPF,iLPF,iXSTI
INTEGER(4) :: iTIV(4),ilpk,ij1c,iread_xs
INTEGER(4) :: NGR,NDL,NDC,NAD,NCD
INTEGER(4) :: NGROUP,NDLAY,NDCAY,NADF,NZDF,NCDF,iups,Nset,NTDF
INTEGER(4) :: NHST,NBRA,NBCR,NBset,NRODS,NCOL,NROW,NPART,NROWA,NCOLA,NXSB
INTEGER(4) :: MHST,MBRA,MBCR,MBset,MRODS,MCOLA
INTEGER(4) :: N_Bran_struct,Nstat_var,ktf
INTEGER(4), DIMENSION(:), POINTER :: var_ind,NBR
REAL(8) :: iHMD,Dsat,ARWatR,ARByPa,ARConR,PITCH,XBE,YBE,minw,maxw,maxws,minws
REAL(8), DIMENSION(:,:), POINTER :: state
LOGICAL :: ladf,lxes,lded,lj1f,lchi,lchd,linv,ldet,lyld,lcdf,lgff,lbet,lamb,ldec,lzdf
LOGICAL :: tcdf,tgff
LOGICAL :: padf,pxes,pded,pj1f,pchi,pchd,pvel,pdet,pyld,pcdf,pgff,pbet,pamb,pdec,pzdf
LOGICAL :: lcrp,lppm,lxesm,derivatives, outrange
CHARACTER(80),DIMENSION(6) :: hcomment
TYPE Branches_info
INTEGER(4) :: Nstat_var, ktf, NBRA
INTEGER(4), DIMENSION(:), POINTER :: var_ind !(Nstat_var)
INTEGER(4), DIMENSION(:), POINTER :: NBR !(Nstat_var)
Character(2), DIMENSION(:), POINTER :: state_nam !(NBRA)
REAL(8), DIMENSION(:,:), POINTER :: state !(Nstat_var,NBRA)
logical :: NOT_assigned
Character(2), DIMENSION(:), POINTER :: var_nam !(Nstat_var)
END TYPE Branches_info
TYPE XSBLOCK_TYPE
REAL(8), DIMENSION(:,:), POINTER ::sig !(NGROUP,NXST)
! 1 2 3 4 5 6 7
! xtr,xab,xnf,xkf,xfi,xxe,xsm
REAL(8), DIMENSION(:,:), POINTER ::sct,adf,cdf,gff,zdf
REAL(8), DIMENSION(:), POINTER ::LPF,det
REAL(8) :: kinf,B2,kinfB,kinfL
! Average assembly flux
REAL(8), DIMENSION(:), POINTER :: flux
! Axial surface flux, (g,bottom->top)
REAL(8), DIMENSION(:,:), POINTER :: zflx
! Radial surface flux, (g,W-S-E-N) if cart, if hex(g,NW-W-SW-SE-E-NE)
REAL(8), DIMENSION(:,:), POINTER :: rflx
! Axial current in, (g,bottom->top,i-o-n)
REAL(8), DIMENSION(:,:,:), POINTER :: zcur
! Radial surface flux, (g,W-S-E-N,i-o-n) if cart, if hex(g,NW-W-SW-SE-E-NE)
REAL(8), DIMENSION(:,:,:), POINTER :: rcur
! Groupwise yields
REAL(8), DIMENSION(:), POINTER :: yldI, yldXe, yldPm
! Xe, Sm, I, Pm Number Densities
REAL(8) :: NDXE,NDSM,NDI,NDPM
END TYPE XSBLOCK_TYPE
TYPE BRANCH_WISE_TYPE
INTEGER(4) :: iBset
TYPE(XSBLOCK_TYPE),dimension(:),pointer:: XS(:) !(NBURN)
END TYPE BRANCH_WISE_TYPE
TYPE PMAXS_WISE_TYPE
logical derivatives
INTEGER(4) :: NCOL,NRODS,NROW,NPART,NROWA,NCOLA
INTEGER(4) :: NHST,NBset
REAL(8), DIMENSION(:,:), POINTER :: history !(Nstat_var,NHST)
REAL(8), DIMENSION(:), POINTER :: invdiff !(NHST)
INTEGER(4), DIMENSION(:), POINTER :: base !(NHST)
REAL(8):: iHMD,Dsat,ARWatR,ARByPa,ARConR,PITCH,XBE,YBE
TYPE(BRANCH_WISE_TYPE), DIMENSION(:,:), POINTER :: branch !(NBRA,NHST)
TYPE(HIST_TIV_TYPE), DIMENSION(:), POINTER :: TIVB !(NHST)
TYPE(Burnup_info),DIMENSION(:), POINTER :: Bset !(NBset)
END TYPE PMAXS_WISE_TYPE
TYPE HIST_TIV_TYPE
INTEGER(4) :: iBset
TYPE(TH_INDEP_VAR),dimension(:),pointer:: TIV(:) !(NBURN)
END TYPE HIST_TIV_TYPE
TYPE Burnup_info
INTEGER(4) :: NBURN
REAL(8),DIMENSION(:), POINTER :: burns !(NBURN)
end type Burnup_info
TYPE TH_INDEP_VAR
REAL(8), DIMENSION(:,:),POINTER :: sig !(NGROUP,xinv)
! xchi,xchd,xinv,
REAL(8), DIMENSION(:),POINTER :: kinp !bet,lam,dhb,dhl
REAL(8) :: YLD(3) !YID,YXE,YPM
REAL(8) :: NDXE,NDSM,NDI,NDPM
REAL(8) :: POWER
REAL(8) :: DAYS
REAL(8) :: BURNUP
END TYPE TH_INDEP_VAR
TYPE XSBLOCK_ITEM
INTEGER :: IBURN ! burnup step -- added by EPM
REAL(8) :: DELTA ! delta local variable -- added by EPM
TYPE(XSBLOCK_TYPE), POINTER :: XS
TYPE(TH_INDEP_VAR), POINTER :: TIV
END TYPE XSBLOCK_ITEM
TYPE(PMAXS_WISE_TYPE),DIMENSION(:), POINTER :: PMAXS !(XS_F_NUM)
TYPE(PMAXS_WISE_TYPE),pointer:: PMAX
TYPE(Branches_info), DIMENSION(:), target,allocatable ::Bran_info
TYPE(Branches_info), POINTER ::bran_i
TYPE(XSBLOCK_TYPE), target,allocatable :: XSCR(:)
TYPE(XSBLOCK_TYPE), target :: XSND
TYPE(XSBLOCK_TYPE), pointer:: XS
TYPE(TH_INDEP_VAR), pointer:: TIV
contains
!---------------------------------------------------------------------
SUBROUTINE AllocateXSBlock
!---------------------------------------------------------------------
IMPLICIT NONE
INTEGER(4) :: ireg
IF (NADF .GT. 4) THEN
ireg = NADF
ELSE
ireg = 4
END IF
allocate(XS%sig(NGROUP,NXST))
allocate(XS%sct(NGROUP,NGROUP))
allocate(XS%flux(NGROUP))
allocate(XS%rflx(NGROUP,ireg))
allocate(XS%zflx(NGROUP,2))
allocate(XS%rcur(NGROUP,ireg,3))
allocate(XS%zcur(NGROUP,2,3))
IF (lyld) THEN
allocate(XS%yldI(NGROUP))
allocate(XS%yldXe(NGROUP))
allocate(XS%yldPm(NGROUP))
ELSE
allocate(XS%yldI(1))
allocate(XS%yldXe(1))
allocate(XS%yldPm(1))
END IF
if(ladf)then
allocate(XS%adf(NGROUP,NADF))
else
allocate(XS%adf(1,1))
endif
if(lzdf)then
allocate(XS%ZDF(NGROUP,NZDF))
NTDF = NADF + NZDF
else
allocate(XS%ZDF(1,1))
NTDF = NADF
endif
if(NLPF .GT. 0)then
allocate(XS%LPF(NLPF))
else
allocate(XS%LPF(1))
endif
if(ldet)then
allocate(XS%det(NGROUP))
else
allocate(XS%det(1))
endif
if(lcdf)then
allocate(XS%cdf(NGROUP,NCDF))
else
allocate(XS%cdf(1,1))
endif
if(lgff.and.NRODS .GT. 0)then
allocate(XS%gff(NGROUP,NRODS))
else
allocate(XS%gff(1,1))
endif
CALL Default_XS
END SUBROUTINE AllocateXSBlock
!---------------------------------------------------------------------
SUBROUTINE DeallocateXSBlock
!---------------------------------------------------------------------
deallocate(XS%sig)
deallocate(XS%sct)
deallocate(XS%adf)
deallocate(XS%zdf)
deallocate(XS%cdf)
deallocate(XS%LPF)
deallocate(XS%det)
deallocate(XS%gff)
deallocate(XS%flux)
deallocate(XS%rflx)
deallocate(XS%zflx)
deallocate(XS%rcur)
deallocate(XS%zcur)
END SUBROUTINE DeallocateXSBlock
!---------------------------------------------------------------------
SUBROUTINE Clear_XS
!---------------------------------------------------------------------
XS%sig=0
XS%sct=0
XS%adf=0
XS%zdf=0
XS%cdf=0
XS%LPF=0
XS%det=0
XS%gff=0
XS%flux=0
XS%yldI=0
XS%yldXe=0
XS%yldPm=0
XS%rflx=0
XS%zflx=0
XS%rcur=0
XS%zcur=0
END SUBROUTINE Clear_XS
!---------------------------------------------------------------------
SUBROUTINE Default_XS
!---------------------------------------------------------------------
CALL Clear_XS
XS%kinf = 0.0
XS%kinfB = 1.0
XS%kinfL = 1.0
XS%B2 = 0.0
XS%ndxe = 0.0
XS%ndsm = 0.0
XS%ndi = 0.0
XS%ndpm = 0.0
XS%adf = 1.0
XS%zdf = 1.0
XS%cdf = 1.0
XS%gff = 1.0
XS%yldi = 0.0
XS%yldxe = 0.0
XS%yldpm = 0.0
END SUBROUTINE Default_XS
END MODULE PCRDATA
|
