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*DECK LIBWRE
SUBROUTINE LIBWRE(NTYP,IPRINT,ITLIB ,NGROUP,NL,IGRF,IGRL,NGR,
> SCAT,SIGS,TOTAL,XSNG,SIGF,XSFI,XNU,DELTA,
> DIL,DLJ,XSOUT,XSCOR,DSIGPL)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Resonance integral temperature and dilution interpolation.
*
*Copyright:
* Copyright (C) 1997 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
* NTYP types of self shielding rates:
* = 1 only absorption;
* = 2 absorption+fission;
* = 3 absorption+fission+scattering.
* IPRINT print flag.
* ITLIB types of library:
* = 1 WIMS-AECL;
* = 2 WIMS-D4.
* NGROUP number of groups.
* NL number of Legendre scattering order.
* IGRF first resonance group to treat.
* IGRL last resonance group to treat.
* NGR number of resonance groups.
* SCAT complete scattering matrix
* SCAT(JG,IG) is from IG to JG.
* SIGS total scattering out of group.
* TOTAL total XS.
* XSNG (n,g) XS.
* SIGF nu*fission XS.
* XSFI fission XS
* XNU 1/nu
* DELTA lethargy.
* DIL standard dilution.
* DLJ Livolant-Jeanpierre dilution.
* XSOUT resonnances integrals.
* XSCOR total correction.
* DSIGPL potential XS times G-C parameters.
*
*-----------------------------------------------------------------------
*
IMPLICIT NONE
INTEGER IOUT
CHARACTER NAMSBR*6
PARAMETER (IOUT=6,NAMSBR='LIBWRE')
*----
* INTEFACE VRAIABLES
*----
INTEGER NTYP,IPRINT,ITLIB,NGROUP,NL,IGRF,IGRL,NGR
REAL SCAT(NGROUP,NGROUP,NL),SIGS(NGROUP,NL),TOTAL(NGROUP),
1 XSNG(NGROUP),SIGF(NGROUP),XSFI(NGROUP),
2 XNU(NGROUP),DELTA(NGROUP),DIL(NGROUP),
3 DLJ(NGROUP),XSOUT(NGROUP,7),XSCOR(4),DSIGPL(NGR)
*----
* LOCAL VARIABLES
*----
INTEGER IGRR,JG,IG1,IG2,IL
REAL XSF,DDIL,DDLJ
DOUBLE PRECISION XNUMER,XDENOM
*
*-----
*
IF(ABS(IPRINT) .GE. 100) THEN
WRITE(IOUT,6000) NAMSBR
ENDIF
DO 100 IGRR=IGRF,IGRL
DDLJ=DLJ(IGRR)
DDIL=DIL(IGRR)
IF(ABS(IPRINT) .GE. 1000) THEN
WRITE(IOUT,*) 'Potential XS*GC parameter ',DSIGPL(IGRR-IGRF+1)
ENDIF
IF(NTYP.EQ.3.AND.XSCOR(3).GT.0.0) THEN
*----
* COMPUTE FLUX
* SCATTERING IS SELF-SHIELDED
*----
IF(IGRR .EQ. IGRF) THEN
IF(ABS(IPRINT) .GE. 100) THEN
WRITE(IOUT,6020)
ENDIF
ENDIF
IF(ITLIB.EQ.1) THEN
XNUMER=DBLE(DDLJ-XSOUT(IGRR,1))
DO 110 JG=1,IGRR-1
XNUMER=XNUMER+DBLE(
> XSOUT(JG,4)*DELTA(JG)*SCAT(IGRR,JG,1)/DELTA(IGRR))
110 CONTINUE
XDENOM=DBLE(DDLJ+SIGS(IGRR,1)-SCAT(IGRR,IGRR,1))
XSOUT(IGRR,4)=REAL(XNUMER/XDENOM)
XNUMER=DBLE(DDIL-XSOUT(IGRR,1))
DO 115 JG=1,IGRR-1
XNUMER=XNUMER+DBLE(
> XSOUT(JG,5)*DELTA(JG)*SCAT(IGRR,JG,1)/DELTA(IGRR))
115 CONTINUE
XDENOM=DBLE(DDIL+SIGS(IGRR,1)-SCAT(IGRR,IGRR,1))
XSOUT(IGRR,5)=REAL(XNUMER/XDENOM)
ELSE
XSOUT(IGRR,4)=(DDLJ-XSOUT(IGRR,1))/DDLJ
XSOUT(IGRR,5)=(DDIL-XSOUT(IGRR,1))/DDIL
ENDIF
IF(ABS(IPRINT) .GE. 1000) THEN
WRITE(IOUT,*) 'Flux 2 ',XSOUT(IGRR,4)
ENDIF
IF(XNU(IGRR).NE.0.0) THEN
XSOUT(IGRR,6)=XSOUT(IGRR,2)/XNU(IGRR)
ELSE
XSOUT(IGRR,6)=0.0
ENDIF
XSOUT(IGRR,7)=XSOUT(IGRR,1)-XSOUT(IGRR,6)
IF(ABS(IPRINT) .GE. 1000) THEN
WRITE(IOUT,*) 'Total ',XSOUT(IGRR,1),XSOUT(IGRR,3),
> XSOUT(IGRR,1)+XSOUT(IGRR,3)
ENDIF
XSOUT(IGRR,1)=XSOUT(IGRR,1)+XSOUT(IGRR,3)
ELSE IF(XSCOR(1).GT.0.0) THEN
*----
* COMPUTE FLUX AND DRAGLIB FLUX
* SCATTERING IS NOT SELF-SHIELDED
*----
IF(IGRR .EQ. IGRF) THEN
IF(ABS(IPRINT) .GE. 100) THEN
WRITE(IOUT,6021)
ENDIF
ENDIF
IF(ITLIB.EQ.1) THEN
XNUMER=DBLE(DDLJ-XSOUT(IGRR,1))
DO 120 JG=1,IGRR-1
XNUMER=XNUMER+DBLE(
> XSOUT(JG,4)*DELTA(JG)*SCAT(IGRR,JG,1)/DELTA(IGRR))
120 CONTINUE
XDENOM=DBLE(DDLJ+SIGS(IGRR,1)-SCAT(IGRR,IGRR,1))
XSOUT(IGRR,4)=REAL(XNUMER/XDENOM)
IF(ABS(IPRINT) .GE. 1000) THEN
WRITE(IOUT,*) 'Flux 1 ',XSOUT(IGRR,4),XNUMER,XDENOM
ENDIF
XNUMER=DBLE(DDIL-XSOUT(IGRR,1))
DO 130 JG=1,IGRR-1
XNUMER=XNUMER+DBLE(
> XSOUT(JG,5)*DELTA(JG)*SCAT(IGRR,JG,1)/DELTA(IGRR))
130 CONTINUE
XDENOM=DBLE(DDIL+SIGS(IGRR,1)-SCAT(IGRR,IGRR,1))
XSOUT(IGRR,5)=REAL(XNUMER/XDENOM)
ELSE
XSOUT(IGRR,4)=(DDLJ-XSOUT(IGRR,1))/DDLJ
XSOUT(IGRR,5)=(DDIL-XSOUT(IGRR,1))/DDIL
IF(ABS(IPRINT) .GE. 1000) THEN
WRITE(IOUT,*) 'Flux 2 ',XSOUT(IGRR,4)
ENDIF
ENDIF
XSOUT(IGRR,3)=SIGS(IGRR,1)*XSOUT(IGRR,4)
IF(NTYP.LT.2) THEN
XSOUT(IGRR,2)=SIGF(IGRR)*XSOUT(IGRR,4)
ENDIF
IF(XNU(IGRR).NE.0.0) THEN
XSOUT(IGRR,6)=XSOUT(IGRR,2)/XNU(IGRR)
ELSE
XSOUT(IGRR,6)=0.0
ENDIF
IF(ABS(IPRINT) .GE. 1000) THEN
WRITE(IOUT,*) 'Total ',XSOUT(IGRR,1),
> SIGS(IGRR,1)*XSOUT(IGRR,5),
> XSOUT(IGRR,1)+SIGS(IGRR,1)*XSOUT(IGRR,5)
ENDIF
XSOUT(IGRR,1)=SIGS(IGRR,1)*XSOUT(IGRR,5)+XSOUT(IGRR,1)
XSOUT(IGRR,7)=XSOUT(IGRR,1)-XSOUT(IGRR,3)-XSOUT(IGRR,6)
ELSE IF(XSOUT(IGRR,4).NE.0.0) THEN
IF(IGRR .EQ. IGRF) THEN
IF(ABS(IPRINT) .GE. 100) THEN
WRITE(IOUT,6022)
ENDIF
ENDIF
IF(XNU(IGRR).NE.0.0) THEN
XSOUT(IGRR,6)=SIGF(IGRR)*XSOUT(IGRR,4)/XNU(IGRR)
ELSE
XSOUT(IGRR,6)=0.0
ENDIF
XSOUT(IGRR,1)=TOTAL(IGRR)*XSOUT(IGRR,4)
XSOUT(IGRR,2)=SIGF(IGRR)*XSOUT(IGRR,4)
XSOUT(IGRR,3)=SIGS(IGRR,1)*XSOUT(IGRR,4)
XSOUT(IGRR,7)=XSOUT(IGRR,1)-XSOUT(IGRR,3)-XSOUT(IGRR,6)
IF(ABS(IPRINT) .GE. 1000) THEN
WRITE(IOUT,*) 'Total ',TOTAL(IGRR)*XSOUT(IGRR,4)
ENDIF
ELSE
IF(IGRR .EQ. IGRF) THEN
IF(ABS(IPRINT) .GE. 100) THEN
WRITE(IOUT,6023)
ENDIF
ENDIF
XSOUT(IGRR,4)=1.0
IF(XNU(IGRR).NE.0.0) THEN
XSOUT(IGRR,6)=SIGF(IGRR)/XNU(IGRR)
ELSE
XSOUT(IGRR,6)=0.0
ENDIF
XSOUT(IGRR,1)=TOTAL(IGRR)
XSOUT(IGRR,2)=SIGF(IGRR)
XSOUT(IGRR,3)=SIGS(IGRR,1)
XSOUT(IGRR,7)=XSOUT(IGRR,1)-XSOUT(IGRR,3)-XSOUT(IGRR,6)
IF(ABS(IPRINT) .GE. 1000) THEN
WRITE(IOUT,*) 'Total ',TOTAL(IGRR)
ENDIF
ENDIF
100 CONTINUE
DO 142 IG2=IGRF,IGRL
XSF=XSOUT(IG2,3)/(XSOUT(IG2,4)*SIGS(IG2,1))
DO 141 IL=1,NL
DO 140 IG1=1,NGROUP
SCAT(IG1,IG2,IL)=XSF*SCAT(IG1,IG2,IL)
140 CONTINUE
141 CONTINUE
142 CONTINUE
IF(ABS(IPRINT) .GE. 100) THEN
WRITE(IOUT,6010) 'FLUX '
WRITE(IOUT,6011) (XSOUT(IG1,4),IG1=IGRF,IGRL)
WRITE(IOUT,6010) 'TOTAL RATE '
WRITE(IOUT,6011) (XSOUT(IG1,1),IG1=IGRF,IGRL)
WRITE(IOUT,6010) 'TOTAL XS '
WRITE(IOUT,6011) (XSOUT(IG1,1)/XSOUT(IG1,4),IG1=IGRF,IGRL)
WRITE(IOUT,6010) 'FISSION RATE '
WRITE(IOUT,6011) (XSOUT(IG1,2),IG1=IGRF,IGRL)
WRITE(IOUT,6010) 'FISSION XS '
WRITE(IOUT,6011) (XSOUT(IG1,2)/XSOUT(IG1,4),IG1=IGRF,IGRL)
WRITE(IOUT,6010) 'SCATTERING RATE '
WRITE(IOUT,6011) (XSOUT(IG1,3),IG1=IGRF,IGRL)
WRITE(IOUT,6010) 'SCATTERING XS '
WRITE(IOUT,6011) (XSOUT(IG1,3)/XSOUT(IG1,4),IG1=IGRF,IGRL)
WRITE(IOUT,6010) 'NG RATE '
WRITE(IOUT,6011) (XSOUT(IG1,7),IG1=IGRF,IGRL)
WRITE(IOUT,6010) 'NG XS '
WRITE(IOUT,6011) (XSOUT(IG1,7)/XSOUT(IG1,4),IG1=IGRF,IGRL)
WRITE(IOUT,6001) NAMSBR
ENDIF
DO 150 IG1=IGRF,IGRL
TOTAL(IG1)=XSOUT(IG1,1)/XSOUT(IG1,4)
SIGF(IG1)=XSOUT(IG1,2)/XSOUT(IG1,4)
XSF=XSOUT(IG1,3)/(XSOUT(IG1,4)*SIGS(IG1,1))
SIGS(IG1,1)=XSOUT(IG1,3)/XSOUT(IG1,4)
DO IL=2,NL
SIGS(IG1,IL)=XSF*SIGS(IG1,IL)
ENDDO
XSFI(IG1)=XSOUT(IG1,6)/XSOUT(IG1,4)
XSNG(IG1)=XSOUT(IG1,7)/XSOUT(IG1,4)
150 CONTINUE
*----
* RETURN LIBWRE
*----
RETURN
*----
* FORMAT
*----
6000 FORMAT('(* Output from --',A6,'-- follows ')
6001 FORMAT(' Output from --',A6,'-- completed *)')
6010 FORMAT(' Record = ',A16)
6011 FORMAT(1P,5E15.7)
6020 FORMAT(' Flux computed with self shielded scattering XS.')
6021 FORMAT(' Flux computed without self shielded scattering XS.')
6022 FORMAT(' Flux tabulated.')
6023 FORMAT(' Flux initialized to unity.')
END
|
