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BAL2T3A.for
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BAL2T3A.for
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SUBROUTINE BAL2T3A
C
C CHANGE RECORD
C SUBROUTINE ADDED FOR 2 TIME-LEVEL BALANCES INCLUDING SED,SND,TOX
C MODIFIED SND MASS BALANCE WITH RESPECT TO BED LOAD OUTFLOW
C ADDED QDWASTE TO WATER MASS BALANCE
C ** SUBROUTINES CALBAL CALCULATE GLOBAL VOLUME, MASS, MOMENTUM,
C ** AND ENERGY BALANCES
C
USE GLOBAL
IMPLICIT NONE
INTEGER::LD,K,L,NSX,NS,NWR,NCTL,ID,JD,KU,NT,M,JU,LU,KD,LL,NQSTMP
INTEGER::IU,NCSTMP
REAL::RQWD
IF(ISDYNSTP.EQ.0)THEN
DELT=DT
ELSE
DELT=DTDYN
END IF
C
C ** ACCUMULATE INTERNAL SOURCES AND SINKS
C
DO L=2,LA
VOLOUT=VOLOUT-DELT*(QSUME(L)-QDWASTE(L))
ENDDO
DO L=2,LA
WVOLOUT=WVOLOUT-DELT*(QSUME(L)-QDWASTE(L))
ENDDO
DO K=1,KC
DO LL=1,NQSIJ
L=LQS(LL)
PPEOUT=PPEOUT-DELT*QSS(K,LL)*G*( 0.5*(BELV(L)+BELV(L-1))
& +0.125*(HP(L)+H2P(L)+HP(L-1)+H2P(L-1))*(Z(K)+Z(K-1)) )
ENDDO
ENDDO
IF(ISTRAN(1).GE.1)THEN
DO K=1,KC
DO L=2,LC
CONT(L,K)=SAL1(L,K)
ENDDO
ENDDO
DO NS=1,NQSIJ
L=LQS(NS)
NQSTMP=NQSERQ(NS)
NCSTMP=NCSERQ(NS,1)
DO K=1,KC
SALOUT=SALOUT
& -DELT*MAX(QSS(K,NS),0.)*CQS(K,NS,1)
& -DELT*MIN(QSS(K,NS),0.)*SAL1(L,K)
& -DELT*MAX(QSERCELL(K,NS),0.)*CSERT(K,NCSTMP,1)
& -DELT*MIN(QSERCELL(K,NS),0.)*SAL1(L,K)
ENDDO
ENDDO
DO NCTL=1,NQCTL
RQWD=1.
IU=IQCTLU(NCTL)
JU=JQCTLU(NCTL)
LU=LIJ(IU,JU)
ID=IQCTLD(NCTL)
JD=JQCTLD(NCTL)
IF(ID.EQ.0.AND.JD.EQ.0)THEN
DO K=1,KC
SALOUT=SALOUT+DELT*QCTLT(K,NCTL)*CONT(LU,K)
ENDDO
ENDIF
ENDDO
DO NWR=1,NQWR
IU=IQWRU(NWR)
JU=JQWRU(NWR)
KU=KQWRU(NWR)
ID=IQWRD(NWR)
JD=JQWRD(NWR)
KD=KQWRD(NWR)
LU=LIJ(IU,JU)
LD=LIJ(ID,JD)
NQSTMP=NQWRSERQ(NWR)
NCSTMP=NQWRSERQ(NWR)
SALOUT=SALOUT+
& DELT*( (QWR(NWR)+QWRSERT(NQSTMP))*CONT(LU,KU) )
IF(LD.NE.1.OR.LD.NE.LC)THEN
SALOUT=SALOUT-
& DELT*( QWR(NWR)*(CONT(LU,KU)+CQWR(NWR,1))
& +QWRSERT(NQSTMP)*(CONT(LU,KU)+CQWRSERT(NCSTMP,1)) )
ENDIF
ENDDO
ENDIF
IF(ISTRAN(3).GE.1)THEN
DO K=1,KC
DO L=2,LC
CONT(L,K)=DYE1(L,K)
ENDDO
ENDDO
DO NS=1,NQSIJ
L=LQS(NS)
NQSTMP=NQSERQ(NS)
NCSTMP=NCSERQ(NS,3)
DO K=1,KC
DYEOUT=DYEOUT
& -DELT*MAX(QSS(K,NS),0.)*CQS(K,NS,3)
& -DELT*MIN(QSS(K,NS),0.)*DYE(L,K)
& -DELT*MAX(QSERCELL(K,NS),0.)*CSERT(K,NCSTMP,3)
& -DELT*MIN(QSERCELL(K,NS),0.)*DYE1(L,K)
DYEOUT2T=DYEOUT2T
& -DELT*MAX(QSS(K,NS),0.)*CQS(K,NS,3)
& -DELT*MIN(QSS(K,NS),0.)*DYE(L,K)
& -DELT*MAX(QSERCELL(K,NS),0.)*CSERT(K,NCSTMP,3)
& -DELT*MIN(QSERCELL(K,NS),0.)*DYE1(L,K)
ENDDO
ENDDO
DO NCTL=1,NQCTL
RQWD=1.
IU=IQCTLU(NCTL)
JU=JQCTLU(NCTL)
LU=LIJ(IU,JU)
ID=IQCTLD(NCTL)
JD=JQCTLD(NCTL)
IF(ID.EQ.0.AND.JD.EQ.0)THEN
DO K=1,KC
DYEOUT=DYEOUT+DELT*QCTLT(K,NCTL)*CONT(LU,K)
DYEOUT2T=DYEOUT2T+DELT*QCTLT(K,NCTL)*CONT(LU,K)
ENDDO
ENDIF
ENDDO
DO NWR=1,NQWR
IU=IQWRU(NWR)
JU=JQWRU(NWR)
KU=KQWRU(NWR)
ID=IQWRD(NWR)
JD=JQWRD(NWR)
KD=KQWRD(NWR)
LU=LIJ(IU,JU)
LD=LIJ(ID,JD)
NQSTMP=NQWRSERQ(NWR)
NCSTMP=NQWRSERQ(NWR)
DYEOUT=DYEOUT+
& DELT*( (QWR(NWR)+QWRSERT(NQSTMP))*CONT(LU,KU) )
DYEOUT2T=DYEOUT2T+
& DELT*( (QWR(NWR)+QWRSERT(NQSTMP))*CONT(LU,KU) )
IF(LD.NE.1.OR.LD.NE.LC)THEN
DYEOUT=DYEOUT-
& DELT*( QWR(NWR)*(CONT(LU,KU)+CQWR(NWR,3))
& +QWRSERT(NQSTMP)*(CONT(LU,KU)+CQWRSERT(NCSTMP,3)) )
DYEOUT2T=DYEOUT2T-
& DELT*( QWR(NWR)*(CONT(LU,KU)+CQWR(NWR,3))
& +QWRSERT(NQSTMP)*(CONT(LU,KU)+CQWRSERT(NCSTMP,3)) )
ENDIF
ENDDO
ENDIF
IF(ISTRAN(5).GE.1)THEN
DO NT=1,NTOX
M=MSVTOX(NT)
DO K=1,KC
DO L=2,LC
CONT(L,K)=TOX1(L,K,NT)
ENDDO
ENDDO
C
C TOXOUT2T(NT) IS NET TOXIC MASS GOING OUT OF DOMAIN DUE
C TO WATER COLUMN VOLUME SOURCES AND SINKS
C
DO NS=1,NQSIJ
L=LQS(NS)
NQSTMP=NQSERQ(NS)
NCSTMP=NCSERQ(NS,M)
DO K=1,KC
TOXOUT2T(NT)=TOXOUT2T(NT)
& -DELT*MAX(QSS(K,NS),0.)*CQS(K,NS,M)
& -DELT*MIN(QSS(K,NS),0.)*TOX1(L,K,NT)
& -DELT*MAX(QSERCELL(K,NS),0.)*CSERT(K,NCSTMP,M)
& -DELT*MIN(QSERCELL(K,NS),0.)*TOX1(L,K,NT)
ENDDO
ENDDO
DO NCTL=1,NQCTL
RQWD=1.
IU=IQCTLU(NCTL)
JU=JQCTLU(NCTL)
LU=LIJ(IU,JU)
ID=IQCTLD(NCTL)
JD=JQCTLD(NCTL)
IF(ID.EQ.0.AND.JD.EQ.0)THEN
DO K=1,KC
TOXOUT2T(NT)=TOXOUT2T(NT)+DELT*QCTLT(K,NCTL)*TOX1(LU,K,NT)
ENDDO
ENDIF
ENDDO
DO NWR=1,NQWR
IU=IQWRU(NWR)
JU=JQWRU(NWR)
KU=KQWRU(NWR)
ID=IQWRD(NWR)
JD=JQWRD(NWR)
KD=KQWRD(NWR)
LU=LIJ(IU,JU)
LD=LIJ(ID,JD)
NQSTMP=NQWRSERQ(NWR)
NCSTMP=NQWRSERQ(NWR)
TOXOUT2T(NT)=TOXOUT2T(NT)+
& DELT*( (QWR(NWR)+QWRSERT(NQSTMP))*CONT(LU,KU) )
IF(LD.NE.1.OR.LD.NE.LC)THEN
TOXOUT2T(NT)=TOXOUT2T(NT)-
& DELT*( QWR(NWR)*(CONT(LU,KU)+CQWR(NWR,M))
& +QWRSERT(NQSTMP)*(CONT(LU,KU)+CQWRSERT(NCSTMP,M)) )
ENDIF
ENDDO
ENDDO
ENDIF
IF(ISTRAN(6).GE.1)THEN
DO NSX=1,NSED
M=MSVSED(NSX)
DO K=1,KC
DO L=2,LC
CONT(L,K)=SED1(L,K,NSX)
ENDDO
ENDDO
C
C SEDOUT2T(NSX) IS IS NET COHESIVE MASS GOING OUT OF DOMAIN DUE
C TO WATER COLUMN VOLUME SOURCES AND SINKS
C
DO NS=1,NQSIJ
L=LQS(NS)
NQSTMP=NQSERQ(NS)
NCSTMP=NCSERQ(NS,M)
DO K=1,KC
SEDOUT2T(NSX)=SEDOUT2T(NSX)
& -DELT*MAX(QSS(K,NS),0.)*CQS(K,NS,M)
& -DELT*MIN(QSS(K,NS),0.)*SED1(L,K,NSX)
& -DELT*MAX(QSERCELL(K,NS),0.)*CSERT(K,NCSTMP,M)
& -DELT*MIN(QSERCELL(K,NS),0.)*SED1(L,K,NSX)
ENDDO
ENDDO
DO NCTL=1,NQCTL
RQWD=1.
IU=IQCTLU(NCTL)
JU=JQCTLU(NCTL)
LU=LIJ(IU,JU)
ID=IQCTLD(NCTL)
JD=JQCTLD(NCTL)
IF(ID.EQ.0.AND.JD.EQ.0)THEN
DO K=1,KC
SEDOUT2T(NSX)=SEDOUT2T(NSX)+DELT*QCTLT(K,NCTL)*CONT(LU,K)
ENDDO
ENDIF
ENDDO
DO NWR=1,NQWR
IU=IQWRU(NWR)
JU=JQWRU(NWR)
KU=KQWRU(NWR)
ID=IQWRD(NWR)
JD=JQWRD(NWR)
KD=KQWRD(NWR)
LU=LIJ(IU,JU)
LD=LIJ(ID,JD)
NQSTMP=NQWRSERQ(NWR)
NCSTMP=NQWRSERQ(NWR)
SEDOUT2T(NSX)=SEDOUT2T(NSX)+
& DELT*( (QWR(NWR)+QWRSERT(NQSTMP))*CONT(LU,KU) )
IF(LD.NE.1.OR.LD.NE.LC)THEN
SEDOUT2T(NSX)=SEDOUT2T(NSX)-
& DELT*( QWR(NWR)*(CONT(LU,KU)+CQWR(NWR,M))
& +QWRSERT(NQSTMP)*(CONT(LU,KU)+CQWRSERT(NCSTMP,M)) )
ENDIF
ENDDO
ENDDO
ENDIF
IF(ISTRAN(7).GE.1)THEN
DO NSX=1,NSND
M=MSVSND(NSX)
DO K=1,KC
DO L=2,LC
CONT(L,K)=SND1(L,K,NSX)
ENDDO
ENDDO
C
C SNDOUT2T(NSX) IS NET NONCOHESIVE MASS GOING OUT OF DOMAIN DUE
C TO WATER COLUMN VOLUME SOURCES AND SINKS
C
DO NS=1,NQSIJ
L=LQS(NS)
NQSTMP=NQSERQ(NS)
NCSTMP=NCSERQ(NS,M)
DO K=1,KC
SNDOUT2T(NSX)=SNDOUT2T(NSX)
& -DELT*MAX(QSS(K,NS),0.)*CQS(K,NS,M)
& -DELT*MIN(QSS(K,NS),0.)*SND1(L,K,NSX)
& -DELT*MAX(QSERCELL(K,NS),0.)*CSERT(K,NCSTMP,M)
& -DELT*MIN(QSERCELL(K,NS),0.)*SND1(L,K,NSX)
ENDDO
ENDDO
DO NCTL=1,NQCTL
RQWD=1.
IU=IQCTLU(NCTL)
JU=JQCTLU(NCTL)
LU=LIJ(IU,JU)
ID=IQCTLD(NCTL)
JD=JQCTLD(NCTL)
IF(ID.EQ.0.AND.JD.EQ.0)THEN
DO K=1,KC
SNDOUT2T(NSX)=SNDOUT2T(NSX)+DELT*QCTLT(K,NCTL)*CONT(LU,K)
ENDDO
ENDIF
ENDDO
DO NWR=1,NQWR
IU=IQWRU(NWR)
JU=JQWRU(NWR)
KU=KQWRU(NWR)
ID=IQWRD(NWR)
JD=JQWRD(NWR)
KD=KQWRD(NWR)
LU=LIJ(IU,JU)
LD=LIJ(ID,JD)
NQSTMP=NQWRSERQ(NWR)
NCSTMP=NQWRSERQ(NWR)
SNDOUT2T(NSX)=SNDOUT2T(NSX)+
& DELT*( (QWR(NWR)+QWRSERT(NQSTMP))*CONT(LU,KU) )
IF(LD.NE.1.OR.LD.NE.LC)THEN
SNDOUT2T(NSX)=SNDOUT2T(NSX)-
& DELT*( QWR(NWR)*(CONT(LU,KU)+CQWR(NWR,M))
& +QWRSERT(NQSTMP)*(CONT(LU,KU)+CQWRSERT(NCSTMP,M)) )
ENDIF
ENDDO
ENDDO
ENDIF
800 FORMAT('N,NS,SNDFBL2T,DEL',2I5,2E14.5)
RETURN
END