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|
*DECK LIBA24
SUBROUTINE LIBA24(HNAMIS,NGRO,FGHOMO,NGHOMO,NSEQHO,NTEMPS,LFIS,
1 L104,SEQHOM,TEMPS,TN,SN,ABSOHE,DIFFHE,FISSHE,FLUXHE,IMPX,TAUX)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Temperature and dilution interpolation of self-shielded effective
* rates in the APOLIB-2 format.
*
*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): A. Hebert
*
*Parameters: input
* HNAMIS name of the isotope.
* NGRO number of energy groups.
* FGHOMO first self-shielded energy group.
* NGHOMO number of self-shielded energy groups.
* NSEQHO number of tabulated dilutions.
* NTEMPS number of tabulated temperatures.
* LFIS fission reaction flag (=.true. if the fission reaction is
* self-shielded).
* L104 resonance flux flag (=.true. if the apolib contains dilution
* /temperature-dependent flux information). If this information
* is not provided, it will be reconstructed from a balance
* relation.
* SEQHOM tabulated dilutions.
* TEMPS tabulated temperatures.
* TN temperature of isotope.
* SN dilution of isotope.
* ABSOHE tabulated absorption effective reaction rates.
* DIFFHE tabulated diffusion effective reaction rates.
* FISSHE tabulated nu*fission effective reaction rates
* (if LFIS=.true.).
* FLUXHE tabulated self-shielded fluxes (if L104=.true.).
* IMPX print flag.
*
*Parameters: output
* TAUX interpolated effective rates:
* TAUX(I,1) absorption effective rates;
* TAUX(I,2) diffusion effective rates;
* TAUX(I,3) nu*fission effective rates;
* TAUX(I,4) pseudo-absorption effective rates used to
* reconstruct the self-shielded flux;
* TAUX(I,5) infinite-dilution absorption x-s;
* TAUX(I,6) infinite-dilution diffusion x-s;
* TAUX(I,7) infinite-dilution fission x-s.
*
*-----------------------------------------------------------------------
*
*----
* SUBROUTINE ARGUMENTS
*----
CHARACTER HNAMIS*12
INTEGER NGRO,FGHOMO,NGHOMO,NSEQHO,NTEMPS,IMPX
LOGICAL LFIS,L104
REAL SEQHOM(NSEQHO),TEMPS(NTEMPS),TN,SN(NGRO),
1 ABSOHE(NGHOMO,NSEQHO,NTEMPS),DIFFHE(NGHOMO,NSEQHO,NTEMPS),
2 FISSHE(NGHOMO,NSEQHO,NTEMPS),FLUXHE(NGHOMO,NSEQHO,NTEMPS),
3 TAUX(NGHOMO,7)
*----
* LOCAL VARIABLES
*----
CHARACTER HSMG*131,TEXTE*80
PARAMETER (NINT=2,NINTSS=3,DTMIN=1.0)
LOGICAL LGONE
DOUBLE PRECISION S1,S2,S3,S4,SUMA,SUMS,SUMF,SUM104,REL,RNTERP
REAL, ALLOCATABLE, DIMENSION(:,:) :: ABSOH,DIFFH,FISSH,FLUXH
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:) :: SQRTEM,SEQ2,WEIJHT,
1 WEIGH
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(WEIJHT(NTEMPS),SQRTEM(NTEMPS),ABSOH(NGHOMO,NSEQHO),
1 DIFFH(NGHOMO,NSEQHO),FISSH(NGHOMO,NSEQHO),
2 FLUXH(NGHOMO,NSEQHO))
WEIJHT(:NTEMPS)=0.0D0
*----
* SQUARE ROOT OF TEMPERATURE INTERPOLATION.
*
* IGTFIX=1 IF ONLY ONE TABULATED TEMPERATURE OR IF STT IS ONE OF THE
* TABULATED TEMPERATURES. IGTFIX=2 IF STT IS OUTSIDE THE TABULATED
* RANGE. IGTFIX=0 OTHERWISE.
*
*----
DO 10 I=1,NTEMPS
SQRTEM(I)=SQRT(TEMPS(I))
10 CONTINUE
IF(NTEMPS.EQ.1) THEN
IGTFIX=1
IPROX=1
ELSE
STT=SQRT(TN)
CALL LIBA28(STT,SQRTEM,NTEMPS,NINT,WEIJHT,IORD,IPROX,I0)
IF(ABS(TN-TEMPS(IPROX)).LE.DTMIN) THEN
IGTFIX=1
ELSEIF((STT.LT.SQRTEM(1)).OR.(STT.GT.SQRTEM(NTEMPS))) THEN
WRITE(HSMG,'(A,F8.2,A,F8.2,A,F8.2,2A)')
1 'LIBA24: A TEMPERATURE', TN,'K IS NOT INCLUDED BETWEEN ',
2 TEMPS(1),' AND ',TEMPS(NTEMPS),' ISOTOPE:',HNAMIS
WRITE(6,'(/1X,A)') HSMG
IGTFIX=2
ELSE
IGTFIX=0
ENDIF
ENDIF
*
IF(IGTFIX .EQ. 1) THEN
DO 25 J=1,NSEQHO
DO 20 I=1,NGHOMO
ABSOH(I,J)=ABSOHE(I,J,IPROX)
DIFFH(I,J)=DIFFHE(I,J,IPROX)
IF(LFIS) FISSH(I,J)=FISSHE(I,J,IPROX)
IF(L104) FLUXH(I,J)=FLUXHE(I,J,IPROX)
20 CONTINUE
25 CONTINUE
ELSE
DO 45 J=1,NSEQHO
DO 40 I=1,NGHOMO
S1=0.D0
S2=0.D0
S3=0.D0
S4=0.D0
DO 30 K=1,IORD
S1=S1+WEIJHT(K)*ABSOHE(I,J,I0+K)
S2=S2+WEIJHT(K)*DIFFHE(I,J,I0+K)
IF(LFIS)S3=S3+WEIJHT(K)*FISSHE(I,J,I0+K)
IF(L104)S4=S4+WEIJHT(K)*FLUXHE(I,J,I0+K)
30 CONTINUE
IF(IGTFIX.EQ.2) THEN
IF(ABSOHE(I,J,IPROX).GE.0.) THEN
S1=MAX(0.D0,S1)
ELSE
S1=MIN(S1,0.D0)
ENDIF
IF(DIFFHE(I,J,IPROX).GE.0.) THEN
S2=MAX(0.D0,S2)
ELSE
S2=MIN(S2,0.D0)
ENDIF
ENDIF
ABSOH(I,J)=REAL(S1)
DIFFH(I,J)=REAL(S2)
IF(LFIS) THEN
IF(IGTFIX .EQ. 2) THEN
IF(FISSHE(I,J,IPROX).GE.0.) THEN
S3=MAX(0.D0,S3)
ELSE
S3=MIN(S3,0.D0)
ENDIF
ENDIF
FISSH(I,J)=REAL(S3)
ENDIF
IF(L104) THEN
IF(IGTFIX .EQ. 2) THEN
IF(FLUXHE(I,J,IPROX).GE.0.) THEN
S4=MAX(0.D0,S4)
ELSE
S4=MIN(S4,0.D0)
ENDIF
ENDIF
FLUXH(I,J)=REAL(S4)
ENDIF
40 CONTINUE
45 CONTINUE
ENDIF
*----
* SET INFINITE DILUTION VALUES.
*----
DO 50 I=1,NGHOMO
TAUX(I,5)=ABSOH(I,NSEQHO)
TAUX(I,6)=DIFFH(I,NSEQHO)
IF(LFIS) TAUX(I,7)=FISSH(I,NSEQHO)
50 CONTINUE
*----
* DILUTION INTERPOLATION.
*----
LGONE=NSEQHO.EQ.1
NSEQH1=0
SEQHO1=0.0
SEQHO0=0.0
IF(.NOT.LGONE)THEN
NSEQH1=NSEQHO-1
SEQHO1=SEQHOM(NSEQH1)
SEQHO0=SEQHOM(NSEQHO)
ENDIF
DO 110 IGG=FGHOMO,FGHOMO+NGHOMO-1
IGSSC=IGG+1-FGHOMO
BACK=SN(IGG)
IF(LGONE) THEN
*----
* UNIQUE TABULATED TEMPERATURE.
*----
TAUX(IGSSC,1)=ABSOH(IGSSC,NSEQHO)
TAUX(IGSSC,2)=DIFFH(IGSSC,NSEQHO)
IF(LFIS) TAUX(IGSSC,3)=FISSH(IGSSC,NSEQHO)
IF(L104) TAUX(IGSSC,4)=FLUXH(IGSSC,NSEQHO)
GOTO 110
ENDIF
*----
* MANY TABULATED TEMPERATURES.
*----
IF(BACK.GE.SEQHO1)THEN
*
* ASYMPTOTIC BEHAVIOR: REACTION RATES VARY LINEARLY WITH
* 1/SEQHOM FOR THE LAST 2 POINTS OF THE TABULATION
*
IF(BACK.GT.SEQHO0) BACK=SEQHO0
AUX=1.0/(BACK*(SEQHO0-SEQHO1))
AUX1=SEQHO1*(SEQHO0-BACK)*AUX
AUX2=SEQHO0*(SEQHO1-BACK)*AUX
TAUX(IGSSC,1)=ABSOH(IGSSC,NSEQH1)*AUX1
1 -ABSOH(IGSSC,NSEQHO)*AUX2
TAUX(IGSSC,2)=DIFFH(IGSSC,NSEQH1)*AUX1
1 -DIFFH(IGSSC,NSEQHO)*AUX2
IF(LFIS) TAUX(IGSSC,3)=FISSH(IGSSC,NSEQH1)*AUX1
1 -FISSH(IGSSC,NSEQHO)*AUX2
IF(L104) TAUX(IGSSC,4)=FLUXH(IGSSC,NSEQH1)*AUX1
1 -FLUXH(IGSSC,NSEQHO)*AUX2
ELSE
*
* REACTION RATES VARY WITH THE SQRT OF THE BACKGROUND XSECT
*
BACKH2=SQRT(BACK)
ALLOCATE(SEQ2(NSEQHO),WEIGH(NINTSS))
DO 60 I=1,NSEQHO
SEQ2(I)=SQRT(SEQHOM(I))
60 CONTINUE
CALL LIBA28(BACKH2,SEQ2,NSEQHO,NINTSS,WEIGH,IORD,IPR,I0)
DO 70 ISEQHO=1,NSEQHO
IF(ABS(BACK-SEQHOM(ISEQHO)).LE.1.E-2) THEN
TAUX(IGSSC,1)=ABSOH(IGSSC,ISEQHO)
TAUX(IGSSC,2)=DIFFH(IGSSC,ISEQHO)
IF(LFIS) TAUX(IGSSC,3)=FISSH(IGSSC,ISEQHO)
IF(L104) TAUX(IGSSC,4)=FLUXH(IGSSC,ISEQHO)
DEALLOCATE(WEIGH,SEQ2)
GOTO 110
ENDIF
70 CONTINUE
SUMA=0.D0
SUMS=0.D0
SUMF=0.D0
SUM104=0.D0
DO 80 I=1,IORD
I1=I+I0
SUMA=SUMA+WEIGH(I)*ABSOH(IGSSC,I1)
SUMS=SUMS+WEIGH(I)*DIFFH(IGSSC,I1)
IF(LFIS) SUMF=SUMF+WEIGH(I)*FISSH(IGSSC,I1)
IF(L104) SUM104=SUM104+WEIGH(I)*FLUXH(IGSSC,I1)
80 CONTINUE
DO 90 I=1,IORD
I1=I+I0
IF(SEQHOM(I1).GT.BACK) THEN
IF(I1-1.GT.0) THEN
*
* ABSORPTION RATE CRITERION.
*
YMIN=MIN(ABSOH(IGSSC,I1-1),ABSOH(IGSSC,I1))
YMAX=MAX(ABSOH(IGSSC,I1-1),ABSOH(IGSSC,I1))
IF((SUMA.GT.YMAX) .OR. (SUMA.LT.YMIN)) THEN
RNTERP=SUMA
SUMA=ABSOH(IGSSC,I1-1)+
1 (ABSOH(IGSSC,I1)-ABSOH(IGSSC,I1-1))*
1 (BACKH2-SEQ2(I1-1))/(SEQ2(I1)-SEQ2(I1-1))
REL = (RNTERP-SUMA)/SUMA
IF(REL.GE.0.1 .OR. IMPX .GT. 3) THEN
WRITE(TEXTE,10000)
1 'ABS. G=',IGG,' DIL=',BACK,
1 ' INT. LIN. --> ERR. RELA.=',REL
WRITE(6,'(/1X,A)') TEXTE
ENDIF
ENDIF
*
* SCATTERING RATE CRITERION.
*
YMIN = MIN(DIFFH(IGSSC,I1-1),DIFFH(IGSSC,I1))
YMAX = MAX(DIFFH(IGSSC,I1-1),DIFFH(IGSSC,I1))
IF((SUMS.GT.YMAX) .OR. (SUMS.LT.YMIN)) THEN
RNTERP=SUMS
SUMS=DIFFH(IGSSC,I1-1)+
1 (DIFFH(IGSSC,I1)-DIFFH(IGSSC,I1-1))*
1 (BACKH2-SEQ2(I1-1))/(SEQ2(I1)-SEQ2(I1-1))
REL = (RNTERP-SUMS)/SUMS
IF(REL.GE. 0.1 .OR. IMPX .GT. 3) THEN
WRITE(TEXTE,10000)
1 'DIF. G=',IGG,' DIL=',BACK,
1 ' INT. LIN. --> ERR. RELA.=',REL
WRITE(6,'(/1X,A)') TEXTE
ENDIF
ENDIF
*
* PRODUCTION RATE CRITERION.
*
IF(LFIS) THEN
YMIN = MIN(FISSH(IGSSC,I1-1),FISSH(IGSSC,I1))
YMAX = MAX(FISSH(IGSSC,I1-1),FISSH(IGSSC,I1))
IF((SUMF.GT.YMAX) .OR. (SUMF.LT.YMIN)) THEN
RNTERP=SUMF
SUMF=FISSH(IGSSC,I1-1)+
1 (FISSH(IGSSC,I1)-FISSH(IGSSC,I1-1))*
1 (BACKH2-SEQ2(I1-1))/(SEQ2(I1)-SEQ2(I1-1))
REL = (RNTERP-SUMF)/SUMF
IF(REL.GE.0.1 .OR. IMPX .GT. 3) THEN
WRITE(TEXTE,10000)
1 'FIS. G=',IGG,' DIL=',BACK,
1 ' INT. LIN. --> ERR. RELA.=',REL
WRITE(6,'(/1X,A)') TEXTE
ENDIF
ENDIF
ENDIF
*
* TEST FLUX 104
*
IF(L104) THEN
YMIN = MIN(FLUXH(IGSSC,I1-1),FLUXH(IGSSC,I1))
YMAX = MAX(FLUXH(IGSSC,I1-1),FLUXH(IGSSC,I1))
IF((SUM104.GT.YMAX) .OR. (SUM104.LT.YMIN)) THEN
RNTERP=SUM104
SUM104=FLUXH(IGSSC,I1-1)+
1 (FLUXH(IGSSC,I1)-FLUXH(IGSSC,I1-1))*
1 (BACKH2-SEQ2(I1-1))/(SEQ2(I1)-SEQ2(I1-1))
REL = (RNTERP-SUM104)/SUM104
IF(REL.GE.0.1 .OR. IMPX .GT. 3) THEN
WRITE(TEXTE,10000)
1 'FIS. G=',IGG,' DIL=',BACK,
1 ' INT. LIN. --> ERR. RELA.=',REL
WRITE(6,'(/1X,A)') TEXTE
ENDIF
ENDIF
ENDIF
*
ELSE
SUMA=ABSOH(IGSSC,1)+
1 (ABSOH(IGSSC,2)-ABSOH(IGSSC,1))*
1 (BACKH2-SEQ2(1))/(SEQ2(2)-SEQ2(1))
IF(SUMA.LE.0.) THEN
SUMA=ABSOH(IGSSC,1)
WRITE(TEXTE,3000)
1 ' DIL. : ',BACK, ' TROP PETITE ',
2 'TAUX ABS. NON EXTRAPOLES GR. ',IGG
WRITE(6,'(/1X,A)') TEXTE
ENDIF
*
SUMS=DIFFH(IGSSC,1)+
1 (DIFFH(IGSSC,2)-DIFFH(IGSSC,1))*
1 (BACKH2-SEQ2(1))/(SEQ2(2)-SEQ2(1))
IF(SUMS.LE.0.) THEN
SUMS=DIFFH(IGSSC,1)
WRITE(TEXTE,3000)
1 ' DIL. : ',BACK, ' TROP PETITE ',
2 'TAUX DIFF. NON EXTRAPOLES GR. ',IGG
WRITE(6,'(/1X,A)') TEXTE
ENDIF
*
IF(LFIS) SUMF=FISSH(IGSSC,1)+
1 (FISSH(IGSSC,2)-FISSH(IGSSC,1))*
1 (BACKH2-SEQ2(1))/(SEQ2(2)-SEQ2(1))
IF(LFIS.AND.SUMF.LE.0.) THEN
SUMF=FISSH(IGSSC,1)
WRITE(TEXTE,3000)
1 ' DIL. : ',BACK, ' TROP PETITE ',
2 'TAUX PROD. NON EXTRAPOLES GR. ',IGG
WRITE(6,'(/1X,A)') TEXTE
ENDIF
*
IF(L104) SUM104=FLUXH(IGSSC,1)+
1 (FLUXH(IGSSC,2)-FLUXH(IGSSC,1))*
1 (BACKH2-SEQ2(1))/(SEQ2(2)-SEQ2(1))
IF(L104.AND.SUM104.LE.0.) THEN
SUM104=FLUXH(IGSSC,1)
WRITE(TEXTE,3000)
1 ' DIL. : ',BACK, ' TROP PETITE ',
2 'FLUX 104 NON EXTRAPOLES GR. ',IGG
WRITE(6,'(/1X,A)') TEXTE
ENDIF
ENDIF
GOTO 100
ENDIF
90 CONTINUE
*
100 TAUX(IGSSC,1)=REAL(SUMA)
TAUX(IGSSC,2)=REAL(SUMS)
IF(LFIS) TAUX(IGSSC,3)=REAL(SUMF)
IF(L104) TAUX(IGSSC,4)=REAL(SUM104)
IF(SUMA.LE.0.) THEN
WRITE(TEXTE,1000)
1 HNAMIS,'GROUPE ',IGG,' DIL. ',BACK,' ABS. <= 0.'
CALL XABORT('LIBA24:'//TEXTE)
ENDIF
IF(SUMS.LE.0.) THEN
WRITE(TEXTE,1000)
1 HNAMIS,'GROUPE ',IGG,' DIL. ',BACK,' DIF. <= 0.'
CALL XABORT('LIBA24:'//TEXTE)
ENDIF
IF(LFIS .AND. SUMF.LE.0.) THEN
WRITE(TEXTE,1000)
1 HNAMIS,'GROUPE ',IGG,' DIL. ',BACK,' FIS. <= 0.'
CALL XABORT('LIBA24:'//TEXTE)
ENDIF
IF(L104 .AND. (1.-SUM104/BACK).LE.0.) THEN
WRITE(TEXTE,1000)
1 HNAMIS,'GROUPE ',IGG,' DIL. ',BACK,' FLU. <= 0.'
CALL XABORT('LIBA24:'//TEXTE)
ENDIF
DEALLOCATE(WEIGH,SEQ2)
ENDIF
110 CONTINUE
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(FLUXH,FISSH,DIFFH,ABSOH,SQRTEM,WEIJHT)
RETURN
*
1000 FORMAT(9H ISOTOPE:,A12,2X,A,I3,A,E13.5,A)
3000 FORMAT(A,E13.5,A,A,I3)
10000 FORMAT(A,I3,A,1P,E13.5,A,E13.5)
END
|
