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*DECK SCREIR
SUBROUTINE SCREIR(NMDEPL,MY1,MY2,MD1,NEL,NOMIS,ADRY,NVTOT,VTOT,
> YLDS,DECAY,ITNAM,ITZEA,KPAX,BPAX)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Read depletion data on input file. Based on LIBEIR.f routine in
* DRAGON.
*
*Copyright:
* Copyright (C) 2014 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
* NMDEPL names of reactions:
* NMDEPL(1)='DECAY'; NMDEPL(2)='NFTOT';
* NMDEPL(3)='NG' ; NMDEPL(4)='N2N';
* etc
* MY1 first dimension of matrix YLDS
* MY2 number of particularized fission products
* MD1 number of types of radioactive decay reactions
* NEL number of particularized isotopes including macro
* NOMIS names of isotopes in chain
* ADRY indices of fissile isotopes (positive values) and fission
* products (negative values) in array YLDS
* NVTOT number of Saphyb calls
* VTOT volume of updated core per Saphyb call
* YLDS fission yields
* DECAY radioactive decay constants
*
*Parameters: output
* ITNAM reactive isotope names in chain
* ITZEA 6-digit nuclide identifier
* atomic number z*10000 (digits) + mass number a*10 +
* energy state (0 = ground state, 1 = first state, etc.)
* KPAX complete reaction type matrix
* BPAX complete branching ratio matrix
*
*-----------------------------------------------------------------------
*
*----
* INPUT FORMAT
*----
* CHAIN
* [[ hnamson [ izea ]
* [ [[ reaction [energy] ]] ]
* [ { STABLE |
* FROM [[ { DECAY | reaction }
* [[ yield hnampar ]] ]] } ]
* ]]
* ENDCHAIN
*
IMPLICIT NONE
*----
* SUBROUTINE ARGUMENTS
*----
INTEGER, PARAMETER::MAXR=12
INTEGER MY1,MY2,MD1,NEL,ADRY(NEL),NVTOT,ITNAM(3,NEL),
> ITZEA(NEL),KPAX(NEL+MAXR,NEL)
CHARACTER NMDEPL(MAXR)*8,NOMIS(NEL)*8
REAL BPAX(NEL+MAXR,NEL)
DOUBLE PRECISION VTOT(NVTOT),YLDS(MY1,MY2,NVTOT),
> DECAY(MD1,NEL,NVTOT)
*----
* INPUT FILE PARAMETERS
*----
CHARACTER TEXT12*12
INTEGER KNADPL(2)
DOUBLE PRECISION DBLINP
*----
* INTERNAL PARAMETERS
* KFISSP : FISSION PRODUCT FLAG = 2 (POSITION OF NFTOT IN NMDEPL)
*----
INTEGER KFISSP
PARAMETER (KFISSP=2)
CHARACTER HSMG*131
INTEGER INDIC,NITMA,I0,IEL,JEL,IDEPL,INTG,IREAC,ISOT,JREL,JDEPL,
> IY1,IY2,IV
REAL FLOTT,RRAT
DOUBLE PRECISION ZN,ZD
*----
* READ LIST OF ISOTOPES AND PROPERTIES
*----
DO 70 IY1=1,MY1
IEL=0
DO I0=1,NEL
IF(ADRY(I0).EQ.IY1) THEN
* IEL is a fissile isotope
IEL=I0
ENDIF
ENDDO
IF(IEL.EQ.0) GO TO 70
DO 60 IY2=1,MY2
JEL=0
DO I0=1,NEL
IF(-ADRY(I0).EQ.IY2) THEN
* JEL is a fission fragment
JEL=I0
ENDIF
ENDDO
IF(JEL.EQ.0) GO TO 60
KPAX(JEL,IEL)=KFISSP
ZN=0.0D0
ZD=0.0D0
DO IV=1,NVTOT
ZN=ZN+YLDS(IY1,IY2,IV)*VTOT(IV)
ZD=ZD+VTOT(IV)
ENDDO
BPAX(JEL,IEL)=REAL(ZN/ZD)
60 CONTINUE
70 CONTINUE
DO 100 IEL=1,NEL
TEXT12=' '
TEXT12(:8)=NOMIS(IEL)
READ(TEXT12,'(3A4)') (ITNAM(I0,IEL),I0=1,3)
KPAX(NEL+1,IEL)=1
BPAX(NEL+1,IEL)=0.0
DO 80 I0=1,MD1
ZN=0.0D0
ZD=0.0D0
DO IV=1,NVTOT
ZN=ZN+DECAY(I0,IEL,IV)*VTOT(IV)
ZD=ZD+VTOT(IV)
ENDDO
BPAX(NEL+1,IEL)=BPAX(NEL+1,IEL)+REAL(ZN/ZD)*1.0E8
80 CONTINUE
100 CONTINUE
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DBLINP)
105 IF(INDIC.NE.3) CALL XABORT('SCREIR: CHARACTER DATA EXPECTED')
*----
* EXIT IF ENDCHAIN READ
*----
IF(TEXT12.EQ.'ENDCHAIN') GO TO 190
*----
* ISOTOPE NAME READ
* IF NAME ALREADY EXISTS SELECT ISOTOPE NUMBER
* IF NAME NOT DEFINED ADD TO ISOTOPE LIST
*----
IDEPL=0
READ(TEXT12,'(2A4)') KNADPL(1),KNADPL(2)
DO 110 JEL=1,NEL
IF(KNADPL(1).EQ.ITNAM(1,JEL).AND.
> KNADPL(2).EQ.ITNAM(2,JEL)) THEN
IDEPL=JEL
GO TO 115
ENDIF
110 CONTINUE
WRITE(HSMG,'(16HSCREIR: ISOTOPE ,2A4,24H IS MISSING AMONG PARTIC,
> 35HULARIZED ISOTOPES OF THE SAPHYB(1).)') KNADPL(1),KNADPL(2)
CALL XABORT(HSMG)
*----
* READ IZEA
*----
115 CALL REDGET(INDIC,INTG,FLOTT,TEXT12,DBLINP)
IF(INDIC.EQ.1) THEN
ITZEA(IDEPL)=INTG
CALL REDGET(INDIC,INTG,FLOTT,TEXT12,DBLINP)
ELSE
ITZEA(IDEPL)=0
ENDIF
*----
* LOOP OVER ALL PARAMETERS ASSOCIATED WITH SON ISOTOPES
*----
120 IF(INDIC.NE.3) CALL XABORT('SCREIR: REACTION TYPE EXPECTED FOR'
> //' ISOTOPE '//TEXT12)
*----
* IF KEYWORD IS 'FROM' READ LIST OF PARENT NUCLIDES
*----
IF(TEXT12.EQ.'FROM') THEN
*----
* LOOP OVER ALL PARAMETERS ASSOCIATED WITH PARENT ISOTOPES
*----
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DBLINP)
130 IF(INDIC.NE.3) CALL XABORT('SCREIR: REACTION TYPE EXPECTED.')
DO 140 IREAC=1,MAXR
RRAT=1.0
*----
* TEST IF KEYWORD IS A REACTION
*----
IF(TEXT12.EQ.NMDEPL(IREAC)) THEN
*----
* READ LIST OF YIELD AND PARENT ISOTOPES
*----
JDEPL=0
DO 150 JEL=1,NEL
*----
* IF YIELD ABSENT GO TO TEST FOR NEW REACTION TYPE
*----
CALL REDGET(INDIC,ISOT,RRAT,TEXT12,DBLINP)
IF(INDIC.NE.2) GO TO 130
CALL REDGET(INDIC,ISOT,FLOTT,TEXT12,DBLINP)
IF(INDIC.NE.3)
> CALL XABORT('SCREIR: ISOTOPE NAME hnampar MISSING')
*----
* ISOTOPE NAME READ
* IF NAME ALREADY EXISTS SELECT ISOTOPE NUMBER
* IF NAME NOT DEFINED ADD TO ISOTOPE LIST
*----
READ(TEXT12,'(2A4)') KNADPL(1),KNADPL(2)
DO 160 JREL=1,NEL
IF(KNADPL(1).EQ.ITNAM(1,JREL).AND.
> KNADPL(2).EQ.ITNAM(2,JREL)) THEN
JDEPL=JREL
GO TO 165
ENDIF
160 CONTINUE
WRITE(HSMG,'(16HSCREIR: ISOTOPE ,2A4,16H IS MISSING AMON,
> 43HG PARTICULARIZED ISOTOPES OF THE SAPHYB(2).)')
> KNADPL(1),KNADPL(2)
CALL XABORT(HSMG)
165 KPAX(IDEPL,JDEPL)=IREAC
BPAX(IDEPL,JDEPL)=RRAT
150 CONTINUE
CALL XABORT('SCREIR: TO MANY PARENT ISOTOPES')
ENDIF
140 CONTINUE
ELSE IF(TEXT12.EQ.'STABLE') THEN
DO 141 IREAC=1,MAXR
IF(KPAX(NEL+IREAC,IDEPL).NE.0) KPAX(NEL+IREAC,IDEPL)=-9999
141 CONTINUE
DO 142 IEL=1,NEL
KPAX(IDEPL,IEL)=0
142 CONTINUE
CALL REDGET(INDIC,INTG,FLOTT,TEXT12,DBLINP)
*----
* READ NEXT KEYWORD FOR THIS ISOTOPE
*----
ELSE
DO 170 IREAC=1,MAXR
RRAT=0.0
IF(TEXT12.EQ.NMDEPL(IREAC)) THEN
CALL REDGET(INDIC,ISOT,RRAT,TEXT12,DBLINP)
IF(INDIC.EQ.1) THEN
CALL XABORT('SCREIR: INVALID INTEGER')
ELSE IF(INDIC.EQ.2) THEN
CALL REDGET(INDIC,INTG,FLOTT,TEXT12,DBLINP)
ENDIF
KPAX(NEL+IREAC,IDEPL)=1
BPAX(NEL+IREAC,IDEPL)=RRAT
*----
* READ NEXT KEYWORD FOR THIS ISOTOPE
*----
GO TO 120
ENDIF
170 CONTINUE
ENDIF
GO TO 105
*----
* FIND FISSION PRODUCTS
*----
190 DO 200 IEL=1,NEL
DO 210 JEL=1,NEL
IF(KPAX(JEL,IEL).EQ.KFISSP) KPAX(NEL+KFISSP,JEL)=-1
210 CONTINUE
200 CONTINUE
*----
* RETURN FROM SCREIR
*----
RETURN
END
|
