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|
*DECK BRERT
SUBROUTINE BRERT(IPMAC1,IELEM,ICOL,NG,NL,LX1,NMIX1,IMIX,ICODE,
1 ISPH,IDIFF,ZKEFF,B2,ENER,XXX1,VOL1,FLX1,DC1,TOT1,CHI1,SIGF1,
2 SCAT1,JXM,JXP,FHETXM,FHETXP,ADF1,NGET,ADFREF,IMPX)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Implement the 1D DF-RT (Raviart-Thomas) reflector model.
*
*Copyright:
* Copyright (C) 2025 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): A. Hebert
*
*Parameters: input
* IPMAC1 nodal macrolib.
* IELEM Raviart-Thomas polynomial order.
* ICOL Raviart-Thomas polynomial integration type.
* NG number of energy groups.
* NL Legendre order of TOT1 and SCAT1 arrays (=1 for isotropic
* scattering in LAB). (NL-1) is the SPN order (if IDIFF>1,
* NL is an even integer).
* LX1 number of nodes in the reflector model.
* NMIX1 number of mixtures in the nodal calculation.
* IMIX mix index of each node.
* ICODE physical albedo index on each side of the domain.
* ISPH SPH flag (=0: use discontinuity factors; =1: use SPH factors).
* IDIFF PN calculation option (=0: diffusion theory; =1: SPN theory
* with 'NTOT1'; =2: SPN theory with 1/(3*D)).
* ZKEFF effective multiplication factor.
* B2 buckling.
* ENER energy limits.
* XXX1 spatial mesh.
* VOL1 volumes.
* FLX1 averaged fluxes
* DC1 diffusion coefficients.
* TOT1 total cross sections.
* CHI1 fission spectra.
* SIGF1 nu*fission cross sections.
* SCAT1 scattering P0 cross sections.
* JXM left boundary currents.
* JXP right boundary currents.
* FHETXM left boundary fluxes.
* FHETXP right boundary fluxes.
* ADF1 assembly discontinuity factors from macrolib.
* NGET type of NGET normalization if discontinuity factors
* (=0: simple; =1: imposed ADF on fuel assembly; =2: recover
* fuel assembly ADF from input macrolib).
* ADFREF imposed ADF values on fuel assembly side.
* IMPX edition flag.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPMAC1
INTEGER IELEM,ICOL,NG,NL,LX1,NMIX1,IMIX(LX1),ICODE(2),ISPH,IDIFF,
1 NGET,IMPX
REAL ZKEFF,B2,ENER(NG+1),XXX1(LX1+1),VOL1(NMIX1),FLX1(NMIX1,NG),
1 DC1(NMIX1,NG),TOT1(NMIX1,NG,NL),CHI1(NMIX1,NG),SIGF1(NMIX1,NG),
2 SCAT1(NMIX1,NG,NG,NL),JXM(NMIX1,NG),JXP(NMIX1,NG),
3 FHETXM(NMIX1,NG,NL),FHETXP(NMIX1,NG,NL),ADF1(NMIX1,NG),ADFREF(NG)
*----
* LOCAL VARIABLES
*----
PARAMETER (NSTATE=40)
INTEGER ISTATE(NSTATE)
CHARACTER CM*2,HADF*8,TEXT12*12
TYPE(C_PTR) JPMAC1,KPMAC1
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: IJJ,NJJ,IPOS
REAL, ALLOCATABLE, DIMENSION(:) :: WORK,AFACTOR,BETA,WORK1,WORK2,
1 VOLTOT
REAL, ALLOCATABLE, DIMENSION(:,:) :: FDXM,FDXP,WORK3,WORK4,WORK5,
1 WORK6,WORK7
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: FHOMM,FHOMP
REAL(KIND=8), ALLOCATABLE, DIMENSION(:,:,:) :: RCAT
*----
* SCRATCH STORAGE ALLOCATION
*----
J_FUEL=0
NLMAX=1
IF(IDIFF.GT.0) THEN
IF(NL.LT.2) CALL XABORT('BRERT: EVEN NL>=2 EXPECTED WITH SPN.')
NLMAX=NL/2
ENDIF
ALLOCATE(FHOMM(NMIX1,NG,NLMAX),FHOMP(NMIX1,NG,NLMAX),
1 FDXM(NMIX1,NG),FDXP(NMIX1,NG),AFACTOR(NG),BETA(NG),VOLTOT(NMIX1),
2 WORK1(NG),WORK2(NG),WORK3(NG,NG),WORK6(NG,NLMAX),WORK7(NG,NLMAX))
*----
* COMPUTE BOUNDARY FLUXES
*----
FDXM(:NMIX1,:NG)=0.0
FDXP(:NMIX1,:NG)=0.0
FHOMM(:NMIX1,:NG,:NLMAX)=0.0
FHOMP(:NMIX1,:NG,:NLMAX)=0.0
VOLTOT(:NMIX1)=0.0
DO I=1,LX1
IBM=IMIX(I)
IF(IBM.EQ.0) CYCLE
WORK6(:NG,:NLMAX)=0.0
WORK7(:NG,:NLMAX)=0.0
DELX=XXX1(I+1)-XXX1(I)
IF(IMPX.GT.0) WRITE(6,'(/15H BRERT: REGION=,I5)') I
IF(IDIFF.EQ.0) THEN
* diffusion theory
ALLOCATE(WORK4(NG,1),WORK5(NG,1))
WORK1(:NG)=DC1(IBM,:NG)
WORK4(:NG,1)=JXM(IBM,:NG)
WORK5(:NG,1)=JXP(IBM,:NG)
DO IG=1,NG
IF(SIGF1(IBM,IG).GT.0.0) J_FUEL=I
WORK2(IG)=TOT1(IBM,IG,1)+B2*DC1(IBM,IG)-SCAT1(IBM,IG,IG,1)
DO JG=1,NG
WORK3(IG,JG)=CHI1(IBM,IG)*SIGF1(IBM,JG)/ZKEFF
IF(JG.NE.IG) WORK3(IG,JG)=WORK3(IG,JG)+SCAT1(IBM,IG,JG,1)
ENDDO
ENDDO
CALL BRERTD(IELEM,ICOL,NG,DELX,WORK1,WORK2,WORK3,WORK4,WORK5,
1 IMPX,WORK6,WORK7)
DEALLOCATE(WORK5,WORK4)
ELSE
* SPN theory
ALLOCATE(WORK4(NG,NL/2),WORK5(NG,NL/2),RCAT(NG,NG,NL))
DO IL=1,NL/2
WORK4(:NG,IL)=FHETXM(IBM,:NG,2*IL)
WORK5(:NG,IL)=FHETXP(IBM,:NG,2*IL)
ENDDO
RCAT(:NG,:NG,:NL)=0.0
DO IG=1,NG
IF(SIGF1(IBM,IG).GT.0.0) J_FUEL=I
DO JG=1,NG
RCAT(IG,JG,1)=-CHI1(IBM,IG)*SIGF1(IBM,JG)/ZKEFF
ENDDO
RCAT(IG,IG,1)=RCAT(IG,IG,1)+B2*DC1(IBM,IG)
DO IL=1,NL,2
RCAT(IG,IG,IL)=RCAT(IG,IG,IL)+TOT1(IBM,IG,IL)
DO JG=1,NG
RCAT(IG,JG,IL)=RCAT(IG,JG,IL)-SCAT1(IBM,IG,JG,IL)
ENDDO
ENDDO
DO IL=2,NL,2
IF(IDIFF.EQ.1) THEN
DO JG=1,NG
RCAT(IG,JG,IL)=RCAT(IG,JG,IL)-SCAT1(IBM,IG,JG,IL)
ENDDO
ELSE
TOT1(IBM,IG,IL)=1.0/(3.0*DC1(IBM,IG))
SCAT1(IBM,IG,:NG,IL)=0.0
ENDIF
RCAT(IG,IG,IL)=RCAT(IG,IG,IL)+TOT1(IBM,IG,IL)
ENDDO
ENDDO
DO IL=1,NL
RCAT(:NG,:NG,IL)=RCAT(:NG,:NG,IL)*REAL(2*IL-1)
ENDDO
CALL BRERTS(IELEM,ICOL,NG,NL,DELX,RCAT,WORK4,WORK5,IMPX,
1 WORK6,WORK7)
DEALLOCATE(RCAT,WORK5,WORK4)
ENDIF
FHOMM(IBM,:NG,:NLMAX)=FHOMM(IBM,:NG,:NLMAX)+WORK6(:NG,:NLMAX)*
1 DELX
FHOMP(IBM,:NG,:NLMAX)=FHOMP(IBM,:NG,:NLMAX)+WORK7(:NG,:NLMAX)*
1 DELX
VOLTOT(IBM)=VOLTOT(IBM)+DELX
ENDDO
DEALLOCATE(WORK7,WORK6,WORK3,WORK2,WORK1)
DO IBM=1,NMIX1
DO IGR=1,NG
IF(NL.LE.2) THEN
FDXM(IBM,IGR)=VOLTOT(IBM)*FHETXM(IBM,IGR,1)/FHOMM(IBM,IGR,1)
FDXP(IBM,IGR)=VOLTOT(IBM)*FHETXP(IBM,IGR,1)/FHOMP(IBM,IGR,1)
ELSE
! Yamamoto formula
FDXM(IBM,IGR)=VOLTOT(IBM)*(FHETXM(IBM,IGR,1)+2.0*
1 FHETXM(IBM,IGR,2))/(FHOMM(IBM,IGR,1)+2.0*FHOMM(IBM,IGR,2))
FDXP(IBM,IGR)=VOLTOT(IBM)*(FHETXP(IBM,IGR,1)+2.0*
1 FHETXP(IBM,IGR,2))/(FHOMP(IBM,IGR,1)+2.0*FHOMP(IBM,IGR,2))
ENDIF
ENDDO
ENDDO
IF(IMPX.GT.0) THEN
WRITE(6,'(/48H BRERT: DISCONTINUITY FACTORS BEFORE NORMALIZATI,
1 2HON)')
DO IBM=1,NMIX1
WRITE(6,'(/9H MIXTURE=,I5)') IBM
WRITE(6,20) 'FDXM',FDXM(IBM,:NG)
WRITE(6,20) 'FDXP',FDXP(IBM,:NG)
ENDDO
ENDIF
*----
* COMPUTE ALBEDOS
*----
IF(ICODE(2).NE.0) THEN
BETA(:)=0.0
IBM=IMIX(LX1)
DO IGR=1,NG
IF(IBM.EQ.0) CYCLE
AFACTOR(IGR)=FDXP(IBM,IGR)*JXP(IBM,IGR)/FHETXP(IBM,IGR,1)
BETA(IGR)=(1.0-2.0*AFACTOR(IGR))/(1.0+2.0*AFACTOR(IGR))
ENDDO
IF(IMPX.GT.0) THEN
WRITE(6,'(/15H BRERT: ALBEDOS)')
WRITE(6,20) 'BETA',BETA(:NG)
ENDIF
ENDIF
*----
* THE SPH PARAMETERS ARE NOT DEGENERATE IN NON-FUNDAMENTAL MODE
* CONDITION. THE ONLY SOLUTION CORRESPONDS TO J_FUEL=1
*----
IF(ISPH.EQ.1) J_FUEL=1
*----
* NGET NORMALIZATION OF THE DISCONTINUITY FACTORS
*----
IF(J_FUEL.GT.0) THEN
IF(NGET.GT.0) THEN
IBM=IMIX(J_FUEL)
DO IGR=1,NG
! impose the adf on the fuel assembly side
IF(IBM.EQ.0) CYCLE
IF(NGET.EQ.1) THEN
FNORM=ADFREF(IGR)/FDXP(IBM,IGR)
ELSE
FNORM=ADF1(IBM,IGR)/FDXP(IBM,IGR)
ENDIF
FDXP(IBM,IGR)=FDXP(IBM,IGR)*FNORM
IF(J_FUEL<LX1) THEN
IBMP=IMIX(J_FUEL+1)
IF(IBMP.GT.0) FDXM(IBMP,IGR)=FDXM(IBMP,IGR)*FNORM
ENDIF
ENDDO
ENDIF
DO J=J_FUEL,1,-1
IBM=IMIX(J)
IF(IBM.EQ.0) CYCLE
DO IGR=1,NG
IF(J>1) THEN
IBMM=IMIX(J-1)
IF(IBMM.GT.0) FDXP(IBMM,IGR)=FDXP(IBMM,IGR)*FDXP(IBM,IGR)/
1 FDXM(IBM,IGR)
ENDIF
FDXM(IBM,IGR)=FDXP(IBM,IGR)
ENDDO
ENDDO
ENDIF
DO J=J_FUEL+1,LX1
IBM=IMIX(J)
IF(IBM.EQ.0) CYCLE
DO IGR=1,NG
IF(J<LX1) THEN
IBMP=IMIX(J+1)
IF(IBMP.GT.0) FDXM(IBMP,IGR)=FDXM(IBMP,IGR)*FDXM(IBM,IGR)/
1 FDXP(IBM,IGR)
ENDIF
FDXP(IBM,IGR)=FDXM(IBM,IGR)
ENDDO
ENDDO
IF(IMPX.GT.0) THEN
WRITE(6,'(/48H BRERT: DISCONTINUITY FACTORS AFTER NGET NORMALI,
1 6HZATION)')
DO IBM=1,NMIX1
WRITE(6,'(/9H MIXTURE=,I5)') IBM
WRITE(6,20) 'FDX',FDXM(IBM,:NG)
ENDDO
ENDIF
*----
* APPLY SPH FACTORS
*----
IF(ISPH.EQ.1) THEN
DO IGR=1,NG
DO IBM=1,NMIX1
IF(FDXM(IBM,IGR).LE.0) CALL XABORT('BRERT: NEGATIVE SPH F'
1 //'ACTOR.')
ENDDO
DO J=1,LX1
IBM=IMIX(J)
IF(IBM.EQ.0) CYCLE
DC1(IBM,IGR)=DC1(IBM,IGR)/FDXM(IBM,IGR)
SIGF1(IBM,IGR)=SIGF1(IBM,IGR)/FDXM(IBM,IGR)
DO IL=1,NL,2
TOT1(IBM,IGR,IL)=TOT1(IBM,IGR,IL)/FDXM(IBM,IGR)
DO JGR=1,NG
SCAT1(IBM,IGR,JGR,IL)=SCAT1(IBM,IGR,JGR,IL)/FDXM(IBM,JGR)
ENDDO
ENDDO
DO IL=2,NL,2
TOT1(IBM,IGR,IL)=TOT1(IBM,IGR,IL)*FDXM(IBM,IGR)
DO JGR=1,NG
SCAT1(IBM,IGR,JGR,IL)=SCAT1(IBM,IGR,JGR,IL)*FDXM(IBM,IGR)
ENDDO
ENDDO
ENDDO
ENDDO
IF(ICODE(2).NE.0) THEN
BETA(:)=0.0
IF(ICODE(2).NE.0) THEN
IBM=IMIX(LX1)
DO IGR=1,NG
IF(IBM.EQ.0) CYCLE
AFACTOR(IGR)=AFACTOR(IGR)/FDXM(IBM,IGR)
BETA(IGR)=(1.0-2.0*AFACTOR(IGR))/(1.0+2.0*AFACTOR(IGR))
ENDDO
ENDIF
IF(IMPX.GT.0) THEN
WRITE(6,'(/29H BRERT: SPH CORRECTED ALBEDOS)')
WRITE(6,20) 'BETA',BETA(:NG)
ENDIF
ENDIF
ENDIF
IF(IMPX.GT.0) THEN
WRITE(6,'(/30H BRERT: DIFFUSION COEFFICIENTS)')
DO IBM=1,NMIX1
WRITE(6,'(/9H MIXTURE=,I5)') IBM
WRITE(6,20) 'DIFF',DC1(IBM,:NG)
ENDDO
ENDIF
*----
* SAVE THE OUTPUT NODAL MACROLIB
*----
ALLOCATE(IJJ(NMIX1),NJJ(NMIX1),IPOS(NMIX1),WORK(NMIX1*NG))
ISTATE(:)=0
ISTATE(1)=NG
ISTATE(2)=NMIX1
ISTATE(3)=NL
IF(J_FUEL.GT.0) ISTATE(4)=1
IF(ICODE(2).NE.0) ISTATE(8)=1 ! physical albedo information
ISTATE(9)=1 ! diffusion coefficient information
IF(IDIFF.EQ.1) ISTATE(10)=NL-1 ! NTOT1 is present
IF(ISPH.EQ.0) ISTATE(12)=3 ! discontinuity factor information
IF(ISPH.EQ.1) ISTATE(14)=1 ! SPH factor information
CALL LCMPUT(IPMAC1,'STATE-VECTOR',NSTATE,1,ISTATE)
CALL LCMPUT(IPMAC1,'ENERGY',NG+1,2,ENER)
CALL LCMPUT(IPMAC1,'VOLUME',NMIX1,2,VOL1)
CALL LCMPUT(IPMAC1,'B2 B1HOM',1,2,B2)
IF(ICODE(2).NE.0) CALL LCMPUT(IPMAC1,'ALBEDO',NG,2,BETA)
IF(ISPH.EQ.0) THEN
CALL LCMSIX(IPMAC1,'ADF',1)
NTYPE=1
HADF='FD_B'
CALL LCMPUT(IPMAC1,'NTYPE',1,1,NTYPE)
CALL LCMPTC(IPMAC1,'HADF',8,HADF)
CALL LCMPUT(IPMAC1,HADF,NMIX1*NG,2,FDXM)
CALL LCMSIX(IPMAC1,' ',2)
ELSE IF(ISPH.EQ.1) THEN
CALL LCMSIX(IPMAC1,'SPH',1)
ISTATE(:)=0
ISTATE(1)=4
ISTATE(2)=1
ISTATE(6)=1
ISTATE(7)=1
ISTATE(8)=NG
CALL LCMPUT(IPMAC1,'STATE-VECTOR',NSTATE,1,ISTATE)
CALL LCMSIX(IPMAC1,' ',2)
ENDIF
JPMAC1=LCMLID(IPMAC1,'GROUP',NG)
DO IGR=1,NG
KPMAC1=LCMDIL(JPMAC1,IGR)
DO IBM=1,NMIX1
WORK(IBM)=VOL1(IBM)*FLX1(IBM,IGR)
ENDDO
CALL LCMPUT(KPMAC1,'FLUX-INTG',NMIX1,2,WORK)
DO IL=1,NL
WRITE(TEXT12,'(4HNTOT,I1)') IL-1
CALL LCMPUT(KPMAC1,TEXT12,NMIX1,2,TOT1(:,IGR,IL))
ENDDO
CALL LCMPUT(KPMAC1,'DIFF',NMIX1,2,DC1(:,IGR))
CALL LCMPUT(KPMAC1,'CHI',NMIX1,2,CHI1(:,IGR))
CALL LCMPUT(KPMAC1,'NUSIGF',NMIX1,2,SIGF1(:,IGR))
IF(ISPH.EQ.1) THEN
DO IBM=1,NMIX1
WORK(IBM)=1.0/FDXM(IBM,IGR)
ENDDO
CALL LCMPUT(KPMAC1,'NSPH',NMIX1,2,WORK)
ENDIF
DO IL=1,NL
WRITE(CM,'(I2.2)') IL-1
WORK(:NMIX1)=SCAT1(:NMIX1,IGR,IGR,IL)
CALL LCMPUT(KPMAC1,'SIGW'//CM,NMIX1,2,WORK)
IPOSDE=0
DO IBM=1,NMIX1
J2=IGR
J1=IGR
DO JGR=1,NG
IF(SCAT1(IBM,IGR,JGR,IL).NE.0.0) THEN
J2=MAX(J2,JGR)
J1=MIN(J1,JGR)
ENDIF
ENDDO
NJJ(IBM)=J2-J1+1
IJJ(IBM)=J2
IPOS(IBM)=IPOSDE+1
DO JGR=J2,J1,-1
IPOSDE=IPOSDE+1
IF(IPOSDE.GT.NG*NMIX1) CALL XABORT('BRERT: SCAT OVERFLOW.')
WORK(IPOSDE)=SCAT1(IBM,IGR,JGR,IL)
ENDDO
ENDDO
CALL LCMPUT(KPMAC1,'SCAT'//CM,IPOSDE,2,WORK)
CALL LCMPUT(KPMAC1,'NJJS'//CM,NMIX1,1,NJJ)
CALL LCMPUT(KPMAC1,'IJJS'//CM,NMIX1,1,IJJ)
CALL LCMPUT(KPMAC1,'IPOS'//CM,NMIX1,1,IPOS)
ENDDO
ENDDO
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(WORK,IPOS,NJJ,IJJ)
DEALLOCATE(VOLTOT,BETA,AFACTOR,FDXP,FDXM,FHOMP,FHOMM)
RETURN
20 FORMAT(1X,A9,1P,10E12.4,/(10X,10E12.4))
END
|
