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|
*DECK FLUGPT
SUBROUTINE FLUGPT(IPRT,IPFLUX,IPTRK,IPMACR,IPFLUP,IPSOU,IFTRAK,
1 IPSYS,IPHASE,ITPIJ,CXDOOR,TITLE,INITFL,LFORW,LEAKSW,IREBAL,
2 NGRP,NMAT,NIFIS,NANIS,NLF,NLIN,NFUNL,OPTION,NUN,MAXINR,EPSINR,
3 MAXOUT,EPSUNK,EPSOUT,IFRITR,IACITR,ILEAK,NREG,NSOUT,MATCOD,
4 KEYFLX,VOL,REFKEF,NMERG,IMERG)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Driver for Boltzmann equation solvers. Solution of a fixed source
* eigenvalue problem.
*
*Copyright:
* Copyright (C) 2008 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
* IPRT print flag.
* IPFLUX pointer to the flux LCM object.
* IPTRK pointer to the tracking LCM object.
* IPMACR pointer to the macrolib LCM object.
* IPFLUP pointer to the unperturbed flux LCM object.
* IPSOU pointer to the GPT fixed source LCM object.
* IFTRAK tracking file unit number.
* IPSYS pointer to the system LCM object (=0 for the method of
* characteristics).
* IPHASE 1 for asm 2 for pij.
* ITPIJ type of collision probability information available:
* =1 scattering modified pij (wij);
* =2 standard pij;
* =3 scattering modified pij+pijk (wij,wijk);
* =4 standard pij+pijk.
* CXDOOR name of the flux solution door.
* TITLE title.
* INITFL flux initialization flag (=0/1/2: uniform flux/LCM/DSA).
* LFORW flag set to .false. to solve an adjoint problem.
* LEAKSW leakage flag (=.true. if leakage is present on the outer
* surface).
* IREBAL flux rebalancing flag (=1: perform rebalancing).
* NGRP number of energy groups.
* NMAT number of mixtures.
* NIFIS number of fissile isotopes.
* NANIS maximum cross section Legendre order.
* NLF number of Legendre orders for the flux.
* NLIN number of polynomial components in flux spatial expansion.
* NFUNL number of spherical harmonics components.
* OPTION type of leakage coefficients:
* 'LKRD' (recover leakage coefficients in Macrolib);
* 'RHS' (recover leakage coefficients in RHS flux object);
* 'B0' (B-0), 'P0' (P-0), 'B1' (B-1),
* 'P1' (P-1), 'B0TR' (B-0 with transport correction) or 'P0TR'
* (P-0 with transport correction).
* NUN number of unknowns per energy group including spherical
* harmonic terms, interface currents and fundamental
* currents.
* MAXINR maximum number of thermal iterations.
* EPSINR thermal iterations epsilon.
* MAXOUT maximum number of outer iterations.
* EPSUNK outer iterations eigenvector epsilon.
* EPSOUT outer iterations eigenvalue epsilon.
* IFRITR number of free iterations in an acceleration cycle.
* IACITR number of accelerated iterations in an acceleration cycle.
* ILEAK method used to include DB2 effect:
* =1 the scattering modified cp matrix is multiplied by PNLR;
* =2 the reduced cp matrix is multiplied by PNL;
* =3 sigs0-db2 approximation;
* =4 albedo approximation;
* =5 Todorova-type isotropic streaming model;
* =6 Ecco-type isotropic streaming model;
* >6 Tibere type anisotropic streaming model.
* NREG number of regions.
* NSOUT number of outer surfaces.
* MATCOD mixture indices.
* KEYFLX index of L-th order flux components in unknown vector.
* VOL volumes.
* REFKEF target effective multiplication factor (K-eff).
* NMERG number of leakage zones.
* IMERG leakage zone index in each material mixture zone.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
CHARACTER CXDOOR*12,TITLE*72,OPTION*4
TYPE(C_PTR) IPFLUX,IPTRK,IPMACR,IPFLUP,IPSOU,IPSYS
INTEGER IPRT,IFTRAK,IPHASE,ITPIJ,INITFL,IREBAL,NGRP,NMAT,
> NIFIS,NANIS,NLF,NLIN,NFUNL,NUN,MAXINR,MAXOUT,
> IFRITR,IACITR,ILEAK,NREG,NSOUT,MATCOD(NREG),
> KEYFLX(NREG,NLIN,NFUNL),NMERG,IMERG(NMAT)
REAL EPSUNK,EPSINR,VOL(NREG)
LOGICAL LFORW,LEAKSW
DOUBLE PRECISION REFKEF
*----
* LOCAL VARIABLES
*----
PARAMETER (IUNOUT=6,NSTATE=40,NDIMO=2,ITYPEC=1)
TYPE(C_PTR) JPMACR,KPMACR,JPFLUX,JPFLUP1,JPFLUP2,JPGPT,KPFLUX,
1 KPGPT,JPSYS,KPSYS
LOGICAL LREBAL
INTEGER ISTATE(NSTATE)
DOUBLE PRECISION AIL,BIL,GAZ
REAL EPSCON(5)
CHARACTER CAN(0:19)*2
*----
* ALLOCATABLE ARRAYS
*----
REAL, ALLOCATABLE, DIMENSION(:) :: SIGT,SIGS0
REAL, ALLOCATABLE, DIMENSION(:,:) :: FLUXO,SOURO,XSTRC,XSTK
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: XSDIA,XSCHI,XSNUF
*----
* DATA STATEMENTS
*----
SAVE CAN
DATA CAN /'00','01','02','03','04','05','06','07','08','09',
> '10','11','12','13','14','15','16','17','18','19'/
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(FLUXO(NUN,NGRP),SOURO(NUN,NGRP),XSTRC(0:NMAT,NGRP),
> XSDIA(0:NMAT,0:NANIS,NGRP),XSCHI(0:NMAT,NIFIS,NGRP),
> XSNUF(0:NMAT,NIFIS,NGRP),XSTK(NMAT,NIFIS))
*
IF(IPRT.GE.3) THEN
WRITE(IUNOUT,6000)
WRITE(IUNOUT,6001) (IREGIO,VOL(IREGIO),MATCOD(IREGIO),
> IREGIO=1,NREG)
ENDIF
*----
* RECOVER CROSS SECTIONS.
*----
JPMACR=LCMGID(IPMACR,'GROUP')
DO 100 IGR=1,NGRP
KPMACR=LCMGIL(JPMACR,IGR)
DO 10 IANI=0,NANIS
CALL LCMLEN(KPMACR,'NJJS'//CAN(IANI),ILNLCM,ITYLCM)
IF(ILNLCM.NE.NMAT) THEN
CALL LCMLIB(KPMACR)
CALL XABORT('FLUGPT: FLUX CALCULATION ERROR, SCATTERING'//
> ' MATRIX OF ORDER ANIS ='//CAN(IANI)//' NOT ON LCM')
ENDIF
10 CONTINUE
*----
* RECOVER CORRECTED TOTAL AND WITHIN-GROUP SCATTERING CROSS SECTIONS
*----
JPSYS=LCMGID(IPSYS,'GROUP')
KPSYS=LCMGIL(JPSYS,IGR)
CALL LCMLEN(KPSYS,'DRAGON-TXSC',ILCTX,ITYLCM)
CALL LCMLEN(KPSYS,'DRAGON-S0XSC',ILCS0X,ITYLCM)
IF(ILCTX.NE.NMAT+1) THEN
CALL XABORT('FLUGPT: INVALID LENGTH FOR DRAGON-TXSC.')
ELSE IF(MOD(ILCS0X,NMAT+1).NE.0) THEN
CALL XABORT('FLUGPT: INVALID LENGTH FOR DRAGON-S0XSC.')
ENDIF
NANI_ASM=ILCS0X/(NMAT+1)-1
ALLOCATE(SIGT(ILCTX),SIGS0(ILCS0X))
SIGS0(:ILCS0X)=0.0
CALL LCMGET(KPSYS,'DRAGON-TXSC',SIGT)
CALL LCMGET(KPSYS,'DRAGON-S0XSC',SIGS0)
XSTRC(0:NMAT,IGR)=SIGT(:NMAT+1)
XSDIA(0:NMAT,0:NANIS,IGR)=0.0
DO IANI=0,MIN(NANIS,NANI_ASM)
DO IMAT=1,NMAT
XSDIA(IMAT,IANI,IGR)=SIGS0(IANI*(NMAT+1)+IMAT+1)
ENDDO
ENDDO
DEALLOCATE(SIGS0,SIGT)
IF(IPRT.GE.3) THEN
WRITE(IUNOUT,6002) IGR
WRITE(IUNOUT,6003) (IMAT,XSTRC(IMAT,IGR),
> XSDIA(IMAT,0,IGR),IMAT=1,NMAT)
ENDIF
*----
* RECOVER FISSION CROSS SECTIONS
*----
CALL LCMLEN(KPMACR,'CHI',ILONG,ITYLCM)
IF( ILONG.EQ.0 )THEN
CALL XABORT('FLUGPT: NO FISSION SPECTRA FOUND ON MACROLIB.')
ELSE
CALL LCMGET(KPMACR,'CHI',XSTK)
DO 60 IFIS= 1, NIFIS
XSCHI(0,IFIS,IGR)= 0.0
DO 50 IMAT= 1, NMAT
XSCHI(IMAT,IFIS,IGR)= XSTK(IMAT,IFIS)
50 CONTINUE
60 CONTINUE
CALL LCMGET(KPMACR,'NUSIGF',XSTK)
DO 80 IFIS= 1, NIFIS
XSNUF(0,IFIS,IGR)= 0.0
DO 70 IMAT= 1, NMAT
XSNUF(IMAT,IFIS,IGR)= XSTK(IMAT,IFIS)
70 CONTINUE
80 CONTINUE
ENDIF
IF( IPRT.GT.3 )THEN
WRITE(IUNOUT,6004) (IMAT,XSNUF(IMAT,1,IGR),
> XSCHI(IMAT,1,IGR),IMAT=1,NMAT)
ENDIF
DO 90 IANI=0,NANIS
CALL LCMLEN(KPMACR,'NJJS'//CAN(IANI),ILNLCM,ITYLCM)
IF(ILNLCM.NE.NMAT) THEN
CALL LCMLIB(KPMACR)
CALL XABORT('FLUGPT: FLUX CALCULATION ERROR, '//
> 'SCATTERING MATRIX OF ORDER ANIS ='//CAN(IANI)//' NOT ON LCM')
ENDIF
90 CONTINUE
100 CONTINUE
*----
* GPT FLUX INITIALIZATION
*----
CALL LCMGET(IPSOU,'STATE-VECTOR',ISTATE)
IF(LFORW) THEN
CALL LCMLEN(IPFLUX,'DLUX',ILINIT,ITYLCM)
ELSE
CALL LCMLEN(IPFLUX,'ADFLUX',ILINIT,ITYLCM)
ENDIF
IF((ILINIT.EQ.0).OR.(INITFL.EQ.0)) THEN
IF(LFORW) THEN
MAXGPT=ISTATE(3)
JPFLUX=LCMLID(IPFLUX,'DFLUX',MAXGPT)
ELSE
MAXGPT=ISTATE(4)
JPFLUX=LCMLID(IPFLUX,'ADFLUX',MAXGPT)
ENDIF
ENDIF
*----
* MAIN LOOP OVER EIGENVALUE FIXED SOURCE SOLUTIONS.
*----
CALL LCMGET(IPFLUP,'STATE-VECTOR',ISTATE)
IF(ISTATE(3).NE.11) CALL XABORT('FLUGPT: MISSING UNPERTURBED DIR'
1 //'ECT AND/OR ADJOINT FLUXES.')
JPFLUP1=LCMGID(IPFLUP,'FLUX')
JPFLUP2=LCMGID(IPFLUP,'AFLUX')
IF(LFORW) THEN
JPGPT=LCMGID(IPSOU,'DSOUR')
ELSE
JPGPT=LCMGID(IPSOU,'ASOUR')
ENDIF
DO 1000 IGPT=1,MAXGPT
CALL LCMLEL(JPGPT,IGPT,ILONG,ITYLCM)
IF(ILONG.EQ.0) GO TO 1000
IF(IPRT.GT.0) THEN
WRITE(IUNOUT,'(1X,29(1H-)/25H FLUGPT: GPT EQUATION NB.,I5/
1 1X,29(1H-))') IGPT
ENDIF
IF((ILINIT.EQ.0).OR.(INITFL.EQ.0)) THEN
KPFLUX=LCMLIL(JPFLUX,IGPT,NGRP)
DO 120 IGR=1,NGRP
FLUXO(:NUN,IGR)=0.0
DO 110 IREGIO=1,NREG
IND=KEYFLX(IREGIO,1,1)
IF(IND.GT.0) FLUXO(IND,IGR)=1.0
110 CONTINUE
IF(LFORW) THEN
CALL LCMPDL(KPFLUX,IGR,NUN,2,FLUXO(1,IGR))
ELSE
CALL LCMPDL(KPFLUX,NGRP-IGR+1,NUN,2,FLUXO(1,IGR))
ENDIF
120 CONTINUE
ENDIF
*----
* RECOVER UNPERTURBED FLUXES AND VALIDATION OF THE FIXED SOURCE TERM.
*----
IF(LFORW) THEN
KPGPT=LCMGIL(JPGPT,IGPT)
DO 130 IGR=1,NGRP
CALL LCMGDL(JPFLUP2,IGR,FLUXO(1,IGR))
CALL LCMGDL(KPGPT,IGR,SOURO(1,IGR))
130 CONTINUE
ELSE
KPGPT=LCMGIL(JPGPT,IGPT)
DO 140 IGR=1,NGRP
CALL LCMGDL(JPFLUP1,IGR,FLUXO(1,IGR))
CALL LCMGDL(KPGPT,IGR,SOURO(1,IGR))
140 CONTINUE
ENDIF
AIL=0.0D0
BIL=0.0D0
DO 155 IGR=1,NGRP
DO 150 IUN=1,NUN
GAZ=FLUXO(IUN,IGR)*SOURO(IUN,IGR)
AIL=AIL+GAZ
BIL=BIL+GAZ**2
150 CONTINUE
155 CONTINUE
IF(REAL(NUN)*SQRT(BIL).LT.EPSINR) GO TO 1000
GAZ=ABS(AIL)/SQRT(REAL(NUN)*BIL)
IF(GAZ.GT.EPSINR) CALL XABORT('FLUGPT: THE SOURCE TERM IS NOT OR'
1 //'THOGONAL TO THE ADJOINT REFERENCE FLUX.')
*
IF (CXDOOR.EQ.'MCCG') THEN
CALL LCMLEN(IPTRK,'KEYCUR$MCCG',ICREB,ITYLCM)
CALL LCMGET(IPTRK,'STATE-VECTOR',ISTATE)
IF ((ICREB.GT.0).AND.(ISTATE(24).EQ.0)) THEN
LREBAL=(IREBAL.EQ.1)
ELSE
LREBAL=(IREBAL.EQ.1).AND.(.NOT.LEAKSW)
ENDIF
ELSE
LREBAL=(IREBAL.EQ.1).AND.(.NOT.LEAKSW)
ENDIF
CALL FLU2DR(IPRT,IPMACR,IPFLUX,IPSYS,IPTRK,IPFLUP,IPSOU,IGPT,
1 IFTRAK,CXDOOR,TITLE,NUN,NREG,NSOUT,NANIS,NLF,NFUNL,NGRP,NMAT,
2 NIFIS,LFORW,LEAKSW,MAXINR,EPSINR,MAXOUT,EPSUNK,EPSOUT,IFRITR,
3 IACITR,ITYPEC,IPHASE,ITPIJ,ILEAK,OPTION,REFKEF,MATCOD,KEYFLX,
4 VOL,XSTRC,XSDIA,XSNUF,XSCHI,LREBAL,INITFL,NMERG,IMERG)
1000 CONTINUE
*----
* END OF MAIN LOOP OVER EIGENVALUE FIXED SOURCE SOLUTIONS.
*----
ISTATE(:NSTATE)=0
ISTATE(1)=NGRP
ISTATE(2)=NUN
IF(LFORW) THEN
ISTATE(3)=100
ELSE
ISTATE(3)=1000
ENDIF
ISTATE(4)=0
ISTATE(5)=MAXGPT
ISTATE(6)=ITYPEC
ISTATE(7)=ILEAK
ISTATE(8)=IFRITR
ISTATE(9)=IACITR
ISTATE(10)=IREBAL
ISTATE(11)=MAXINR
ISTATE(12)=MAXOUT
ISTATE(17)=NMAT
ISTATE(18)=NMERG
CALL LCMPUT(IPFLUX,'STATE-VECTOR',NSTATE,1,ISTATE)
EPSCON(1)=EPSINR
EPSCON(2)=EPSUNK
EPSCON(3)=EPSOUT
EPSCON(4:5)=0.0
CALL LCMPUT(IPFLUX,'EPS-CONVERGE',5,2,EPSCON)
CALL LCMPTC(IPFLUX,'OPTION',4,OPTION)
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(XSTK,XSNUF,XSCHI,XSDIA,XSTRC,SOURO,FLUXO)
RETURN
*----
* FORMATS
*----
6000 FORMAT(//30X,' EDITION REGION/VOL/MIXTURE '//
>3(5X,'REGION',5X,'VOL ',5X,'MIXTURE')/)
6001 FORMAT(1P,3(5X,I4,4X,E12.5,4X,I4,4X))
6002 FORMAT(//30X,' G R O U P : ',I5//
>30X,' TOTAL MACROSCOPIC CROSS SECTIONS PER MIXTURE '/)
6003 FORMAT(3(1X,'MIXTURE',4X,'NTOT0',11X,'SIGW',3X)/
>1P,3(1X,I4,3X,E12.5,3X,E12.5))
6004 FORMAT(3(1X,'MIXTURE',4X,'NUSIGF',11X,'CHI ',3X)/
>1P,3(1X,I4,3X,E12.5,3X,E12.5))
END
|
