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*DECK EDIHFC
SUBROUTINE EDIHFC(IPEDIT,NGROUP,NGCOND,NREGIO,NMERGE,NBISO,
> NDEPL,NREAC,MATCOD,VOLUME,INADPL,ISONAM,ISONRF,
> IPISO,MIX,FLUXES,DEN,IGCOND,IMERGE,RER,EMEVF2,
> EMEVG2,VOLME,IPRINT)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Evaluate H-factors using information recovered from the reference
* internal library and store them in the edition macrolib.
*
*Copyright:
* Copyright (C) 2002 Ecole Polytechnique de Montreal
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version
*
*Author(s): G. Marleau
*
*Parameters: input
* IPEDIT pointer to the edition LCM object.
* NGROUP number of groups.
* NGCOND number of condensed groups.
* NREGIO number of regions.
* NMERGE number of merged regions.
* NBISO number of isotopes.
* NDEPL number of depleting isotopes.
* NREAC number of depletion reactions.
* MATCOD material per region.
* VOLUME volume of region.
* INADPL name of depleting isotopes.
* ISONAM isotopes names.
* ISONRF library name of isotopes.
* IPISO pointer array towards microlib isotopes.
* MIX mixture associated with isotopes.
* FLUXES multigroup fluxes.
* DEN isotope density.
* IGCOND limits of condensed groups.
* IMERGE index of merged region.
* RER fission and capture production energy (MeV/reaction).
* VOLME merged volume.
* IPRINT print level.
*
*Parameters: output
* EMEVF2 fission production energy by isotope.
* EMEVG2 capture production energy by isotope.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPEDIT,IPISO(NBISO)
INTEGER IUNOUT
INTEGER NGROUP,NGCOND,NREGIO,NMERGE,NBISO,NDEPL,NREAC,
> MATCOD(NREGIO),INADPL(3,NDEPL),ISONAM(3,NBISO),
> ISONRF(3,NBISO),MIX(NBISO),IGCOND(NGCOND),
> IMERGE(NREGIO)
REAL VOLUME(NREGIO),FLUXES(NREGIO,NGROUP),DEN(NBISO),
> RER(NREAC,NDEPL),EMEVF2(NBISO),EMEVG2(NBISO)
REAL VOLME(NMERGE)
INTEGER IPRINT
DOUBLE PRECISION TOTPOW,POWF,POWC,POWT
INTEGER, ALLOCATABLE, DIMENSION(:) :: INDX
REAL, ALLOCATABLE, DIMENSION(:) :: SIG,HFACT
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:,:) :: FLXMER
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:,:,:) :: WORK
*----
* LOCAL VARIABLES
*----
TYPE(C_PTR) JPEDIT,KPEDIT,KPLIB
PARAMETER (IUNOUT=6)
INTEGER IGAR(3)
CHARACTER HNISOR*12,TEXT12*12,HSMG*131
LOGICAL L1,L2
DOUBLE PRECISION GAR,CONV,XDRCST
*----
* SCRATCH STORAGE ALLOCATION
* SIG fission/capture cross sections.
* HFACT H-factor in a macrogroup.
* FLXMER merged and condensed flux.
* WORK H-factors.
* INDX depleting isotope index.
*----
ALLOCATE(INDX(NBISO))
ALLOCATE(SIG(NGROUP),HFACT(NMERGE))
ALLOCATE(FLXMER(NMERGE,NGCOND),WORK(NMERGE,NGCOND,3))
*----
* COMPUTE THE DEPLETING ISOTOPE INDEX
*----
DO 20 ISO=1,NBISO
WRITE(HNISOR,'(3A4)') (ISONRF(I0,ISO),I0=1,3)
I1=INDEX(HNISOR,'_')
IF(I1.EQ.0) THEN
TEXT12=HNISOR
ELSE
TEXT12=HNISOR(:I1-1)
ENDIF
READ(TEXT12,'(3A4)') (IGAR(I0),I0=1,3)
DO 10 IDP=1,NDEPL
L1=((ISONRF(1,ISO).EQ.INADPL(1,IDP)).AND.
1 (ISONRF(2,ISO).EQ.INADPL(2,IDP)).AND.
2 (ISONRF(3,ISO).EQ.INADPL(3,IDP)))
L2=((IGAR(1).EQ.INADPL(1,IDP)).AND.
1 (IGAR(2).EQ.INADPL(2,IDP)).AND.
2 (IGAR(3).EQ.INADPL(3,IDP)))
IF(L1.OR.L2) THEN
INDX(ISO)=IDP
GO TO 20
ENDIF
10 CONTINUE
INDX(ISO)=0
20 CONTINUE
*----
* COMPUTE H-FACTOR
*----
CONV=1.0D6 ! convert MeV to eV
IZFISS=0
FLXMER(:NMERGE,:NGCOND)=0.0D0
WORK(:NMERGE,:NGCOND,:3)=0.0D0
DO 160 ISO=1,NBISO
IDPL=INDX(ISO)
IF(IDPL.EQ.0) GO TO 160
KPLIB=IPISO(ISO) ! set ISO-th isotope
IF(.NOT.C_ASSOCIATED(KPLIB)) THEN
WRITE(HSMG,'(17HEDIHFC: ISOTOPE '',3A4,16H'' IS NOT AVAILAB,
> 19HLE IN THE MICROLIB.)') (ISONAM(I0,ISO),I0=1,3)
CALL XABORT(HSMG)
ENDIF
*----
* RECOVER H-FACTOR INFORMATION IF AVAILABLE
*----
CALL LCMLEN(KPLIB,'H-FACTOR',ILLCM,ITLCM)
IF(ILLCM.EQ.NGROUP) THEN
IZFISS=IZFISS+1
CALL LCMGET(KPLIB,'H-FACTOR',SIG)
DO 90 IREG=1,NREGIO
IMR=IMERGE(IREG)
IF((IMR.GT.0).AND.(MATCOD(IREG).EQ.MIX(ISO))) THEN
IGRFIN=0
DO 80 IGC=1,NGCOND
IGRDEB=IGRFIN+1
IGRFIN=IGCOND(IGC)
GAR=0.0D0
DO 70 IGR=IGRDEB,IGRFIN
GAR=GAR+FLUXES(IREG,IGR)*DEN(ISO)*VOLUME(IREG)*
> SIG(IGR)
70 CONTINUE
WORK(IMR,IGC,1)=WORK(IMR,IGC,1)+GAR
80 CONTINUE
ENDIF
90 CONTINUE
GO TO 165
ENDIF
*----
* COMPUTE FISSION ENERGY
*----
CALL LCMLEN(KPLIB,'NFTOT',ILLCM,ITLCM)
IF(ILLCM.EQ.NGROUP) THEN
IZFISS=IZFISS+1
EMEVF2(ISO)=RER(2,IDPL)
CALL LCMGET(KPLIB,'NFTOT',SIG)
DO 120 IREG=1,NREGIO
IMR=IMERGE(IREG)
IF((IMR.GT.0).AND.(MATCOD(IREG).EQ.MIX(ISO))) THEN
IGRFIN=0
DO 110 IGC=1,NGCOND
IGRDEB=IGRFIN+1
IGRFIN=IGCOND(IGC)
GAR=0.0D0
DO 100 IGR=IGRDEB,IGRFIN
GAR=GAR+FLUXES(IREG,IGR)*DEN(ISO)*VOLUME(IREG)*
> SIG(IGR)
100 CONTINUE
WORK(IMR,IGC,1)=WORK(IMR,IGC,1)+GAR*RER(2,IDPL)*CONV
110 CONTINUE
ENDIF
120 CONTINUE
ENDIF
*----
* COMPUTE CAPTURE ENERGY
*----
CALL LCMLEN(KPLIB,'NG',ILLCM,ITLCM)
IF(ILLCM.EQ.NGROUP) THEN
IZFISS=IZFISS+1
EMEVG2(ISO)=RER(3,IDPL)
CALL LCMGET(KPLIB,'NG',SIG)
DO 150 IREG=1,NREGIO
IMR=IMERGE(IREG)
IF((IMR.GT.0).AND.(MATCOD(IREG).EQ.MIX(ISO))) THEN
IGRFIN=0
DO 140 IGC=1,NGCOND
IGRDEB=IGRFIN+1
IGRFIN=IGCOND(IGC)
GAR=0.0D0
DO 130 IGR=IGRDEB,IGRFIN
GAR=GAR+FLUXES(IREG,IGR)*DEN(ISO)*VOLUME(IREG)*
> SIG(IGR)
130 CONTINUE
WORK(IMR,IGC,2)=WORK(IMR,IGC,2)+GAR*RER(3,IDPL)*CONV
140 CONTINUE
ENDIF
150 CONTINUE
ENDIF
160 CONTINUE
*----
* Normalize total power to 1 W
* Print fission, capture and total power density
*----
165 TOTPOW=0.0D0
DO IGC=1,NGCOND
DO IMR=1,NMERGE
WORK(IMR,IGC,3)=WORK(IMR,IGC,1)+WORK(IMR,IGC,2)
TOTPOW=TOTPOW+WORK(IMR,IGC,3)*XDRCST('eV','J')
ENDDO
ENDDO
IF(TOTPOW.GT.0.0D0) THEN
IF(ABS(IPRINT).GE.2) THEN
WRITE(IUNOUT,6000)
DO IMR=1,NMERGE
POWF=0.0D0
POWC=0.0D0
POWT=0.0D0
DO IGC=1,NGCOND
POWF=POWF+WORK(IMR,IGC,1)
POWC=POWC+WORK(IMR,IGC,2)
POWT=POWT+WORK(IMR,IGC,3)
ENDDO
IF(VOLME(IMR).NE.0.0) THEN
POWF=POWF/(TOTPOW*VOLME(IMR))
POWC=POWC/(TOTPOW*VOLME(IMR))
POWT=POWT/(TOTPOW*VOLME(IMR))
WRITE(IUNOUT,6001) IMR,VOLME(IMR),POWF,POWC,POWT
ENDIF
ENDDO
ENDIF
ENDIF
*----
* COMPUTE THE HOMOGENIZED/CONDENSED FLUX
*----
IF(IZFISS.NE.0) THEN
DO 190 IREG=1,NREGIO
IMR=IMERGE(IREG)
IF(IMR.GT.0) THEN
IGRFIN=0
DO 180 IGC=1,NGCOND
IGRDEB=IGRFIN+1
IGRFIN=IGCOND(IGC)
GAR=0.0D0
DO 170 IGR=IGRDEB,IGRFIN
GAR=GAR+FLUXES(IREG,IGR)*VOLUME(IREG)
170 CONTINUE
FLXMER(IMR,IGC)=FLXMER(IMR,IGC)+GAR
180 CONTINUE
ENDIF
190 CONTINUE
DO 210 IGC=1,NGCOND
DO 200 IMR=1,NMERGE
IF(FLXMER(IMR,IGC).GT.0.0) THEN
WORK(IMR,IGC,3)=WORK(IMR,IGC,3)/FLXMER(IMR,IGC)
ENDIF
200 CONTINUE
210 CONTINUE
ENDIF
*----
* SAVE ON LCM
*----
CALL LCMSIX(IPEDIT,'MACROLIB',1)
JPEDIT=LCMLID(IPEDIT,'GROUP',NGCOND)
DO 230 IGC=1,NGCOND
DO 220 IMR=1,NMERGE
HFACT(IMR)=REAL(WORK(IMR,IGC,3))
220 CONTINUE
KPEDIT=LCMDIL(JPEDIT,IGC)
CALL LCMPUT(KPEDIT,'H-FACTOR',NMERGE,2,HFACT)
230 CONTINUE
CALL LCMSIX(IPEDIT,' ',2)
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(WORK,FLXMER)
DEALLOCATE(HFACT,SIG)
DEALLOCATE(INDX)
RETURN
*----
* FORMAT
*----
6000 FORMAT(/' EDIHFC: POWER DENSITY (W/cc) NORMALIZED TO 1 W TOTAL ',
> 'POWER '/' REGION',6X,'VOLUME',7X,'FISSION',7X,'CAPTURE',9X,
> 'TOTAL')
6001 FORMAT(1X,I4,1P,4E14.5)
END
|
