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BAL2T5.for
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BAL2T5.for
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C
C**********************************************************************C
C**********************************************************************C
C**********************************************************************C
C
SUBROUTINE BAL2T5
C
C ** THIS SUBROUTINE IS PART OF EFDC-FULL VERSION 1.0a
C
C ** LAST MODIFIED BY JOHN HAMRICK ON 1 NOVEMBER 2001
C
C----------------------------------------------------------------------C
C
C CHANGE RECORD
C DATE MODIFIED BY DATE APPROVED BY
C 05/01/2002 john hamrick 05/01/2002 john hamrick
C subroutine added for 2 time-level balances including sed,snd,tox
C----------------------------------------------------------------------C
C
C ** SUBROUTINES CALBAL CALCULATE GLOBAL VOLUME, MASS, MOMENTUM,
C ** AND ENERGY BALANCES
C
C**********************************************************************C
C
USE GLOBAL
IMPLICIT NONE
INTEGER::K,L,NS
REAL::VOLBMO2T,BVOLBMO2T,WVOLBMO2T,SALBMO,DYEBMO,UMOBMO
REAL::VOLERR,VOLERR2T,BVOLERR2T,SALERR,DYEERR,WVOLERR2T
REAL::DYEERR2T,UMOERR,VMOERR,ENEERR,RVERDE,REERDE,RVERDO
REAL::RVERDO2T,RWVERDO2T,RSERDO,RDERDO,RDERDO2T,RUERDO,REERDO
REAL::RDERDE,RUERDE2T,RBVERDE2T,RDERDE2T,RUMERDE,RUMERDO
REAL::UUEBMO,RVMERDO,VVEBMO,PPEBMO,TMPVAL,BBEBMO,SBLOUT2TT
REAL::RVERDE2T,RWVERDE2T,RSERDE,RVMERDE,VOLBMO,VMOBMO,ENEBMO
REAL::ENEBEG,ENEEND,ENEOUT,AMOEND,VVEEND,PPEEND,BBEEND
REAL::UUEEND,VMOEND,SALEND,TIME,VOLEND,VOLEND2T,BVOLEND2T
REAL::WVOLEND2T,DYEEND,UMOEND
INTEGER::NT,LN
C
C**********************************************************************C
C
C ** INCREMENT COUNTER
C
IF(ISDYNSTP.EQ.0)THEN
NBAL=NBAL+1
TIME=DT*FLOAT(N)+TCON*TBEGIN
TIME=TIME/TCON
ELSE
NBAL=NBAL+NINCRMT
TIME=TIMESEC/TCON
ENDIF
C
C ** CHECK FOR END OF BALANCE PERIOD
C
IF(NBAL.GE.NTSMMT)THEN
C
CJH WRITE(6,6666)N,NBAL
CJH 6666 FORMAT(' ACTIVE CALL TO CALBAL5, N,NBUD = ',2I5)
C
C**********************************************************************C
C
C ** CALCULATE ENDING VOLUME, SALT MASS, DYE MASS, MOMENTUM, KINETIC
C ** ENERGY AND POTENTIAL ENERGY, AND ASSOCIATED FLUXES
C
C----------------------------------------------------------------------C
C
VOLEND=0.
VOLEND2T=0.
BVOLEND2T=0.
WVOLEND2T=0.
SALEND=0.
DYEEND=0.
UMOEND=0.
VMOEND=0.
UUEEND=0.
VVEEND=0.
PPEEND=0.
BBEEND=0.
C
DYEEND2T=0.0
DO NS=1,NSED
SEDEND2T(NS)=0.0
SEDEND2TW(NS)=0.0
SEDEND2TB(NS)=0.0
ENDDO
DO NS=1,NSND
SNDEND2T(NS)=0.0
SNDEND2TW(NS)=0.0
SNDEND2TB(NS)=0.0
ENDDO
DO NT=1,NTOX
TOXEND2T(NT)=0.0
TOXEND2TW(NT)=0.0
TOXEND2TB(NT)=0.0
ENDDO
C
DO L=2,LA
LN=LNC(L)
VOLEND=VOLEND+SPB(L)*DXYP(L)*HP(L)
VOLEND2T=VOLEND2T+SPB(L)*DXYP(L)*HP(L)
WVOLEND2T=WVOLEND2T+SPB(L)*DXYP(L)*HP(L)
UMOEND=UMOEND+SPB(L)*0.5*DXYP(L)*HP(L)*(DYIU(L)*HUI(L)*UHDYE(L)
& +DYIU(L+1)*HUI(L+1)*UHDYE(L+1))
VMOEND=VMOEND+SPB(L)*0.5*DXYP(L)*HP(L)*(DXIV(L)*HVI(L)*VHDXE(L)
& +DXIV(LN)*HVI(LN)*VHDXE(LN))
PPEEND=PPEEND+SPB(L)*0.5*DXYP(L)
& *(GI*P(L)*P(L)-G*BELV(L)*BELV(L))
ENDDO
C
AMOEND=SQRT(UMOEND*UMOEND+VMOEND*VMOEND)
C
DO K=1,KC
DO L=2,LA
LN=LNC(L)
SALEND=SALEND+SCB(L)*DXYP(L)*HP(L)*SAL(L,K)*DZC(K)
DYEEND=DYEEND+SCB(L)*DXYP(L)*HP(L)*DYE(L,K)*DZC(K)
DYEEND2T=DYEEND2T+SCB(L)*DXYP(L)*HP(L)*DYE(L,K)*DZC(K)
UUEEND=UUEEND+SPB(L)*0.125*DXYP(L)*HP(L)*DZC(K)
& *( (U(L,K)+U(L+1,K))*(U(L,K)+U(L+1,K)) )
VVEEND=VVEEND+SPB(L)*0.125*DXYP(L)*HP(L)*DZC(K)
& *( (V(L,K)+V(LN,K))*(V(L,K)+V(LN,K)) )
BBEEND=BBEEND+SPB(L)*GP*DXYP(L)*HP(L)*DZC(K)*( BELV(L)
& +0.5*HP(L)*(Z(K)+Z(K-1)) )*B(L,K)
ENDDO
ENDDO
C
C
DO NS=1,NSED
DO K=1,KC
DO L=2,LA
SEDEND2T(NS)=SEDEND2T(NS)
& +SCB(L)*DXYP(L)*HP(L)*DZC(K)*SED(L,K,NS)
SEDEND2TW(NS)=SEDEND2TW(NS)
& +SCB(L)*DXYP(L)*HP(L)*DZC(K)*SED(L,K,NS)
ENDDO
ENDDO
ENDDO
DO NS=1,NSND
DO K=1,KC
DO L=2,LA
SNDEND2T(NS)=SNDEND2T(NS)
& +SCB(L)*DXYP(L)*HP(L)*DZC(K)*SND(L,K,NS)
SNDEND2TW(NS)=SNDEND2TW(NS)
& +SCB(L)*DXYP(L)*HP(L)*DZC(K)*SND(L,K,NS)
ENDDO
ENDDO
ENDDO
DO NT=1,NTOX
DO K=1,KC
DO L=2,LA
TOXEND2T(NT)=TOXEND2T(NT)
& +SCB(L)*DXYP(L)*HP(L)*DZC(K)*TOX(L,K,NT)
TOXEND2TW(NT)=TOXEND2TW(NT)
& +SCB(L)*DXYP(L)*HP(L)*DZC(K)*TOX(L,K,NT)
ENDDO
ENDDO
ENDDO
C
DO NS=1,NSED
DO L=2,LA
DO K=1,KBT(L)
SEDEND2T(NS)=SEDEND2T(NS)+SCB(L)*DXYP(L)*SEDB(L,K,NS)
SEDEND2TB(NS)=SEDEND2TB(NS)+SCB(L)*DXYP(L)*SEDB(L,K,NS)
ENDDO
ENDDO
ENDDO
DO NS=1,NSND
DO L=2,LA
DO K=1,KBT(L)
SNDEND2T(NS)=SNDEND2T(NS)+SCB(L)*DXYP(L)*SNDB(L,K,NS)
SNDEND2TB(NS)=SNDEND2TB(NS)+SCB(L)*DXYP(L)*SNDB(L,K,NS)
ENDDO
ENDDO
ENDDO
DO NT=1,NTOX
DO L=2,LA
DO K=1,KBT(L)
TOXEND2T(NT)=TOXEND2T(NT)+SCB(L)*DXYP(L)*TOXB(L,K,NT)
TOXEND2TB(NT)=TOXEND2TB(NT)+SCB(L)*DXYP(L)*TOXB(L,K,NT)
ENDDO
ENDDO
ENDDO
C
DO L=2,LA
DO K=1,KBT(L)
VOLEND2T=VOLEND2T+SPB(L)*DXYP(L)*HBED(L,K)
BVOLEND2T=BVOLEND2T+SPB(L)*DXYP(L)*HBED(L,K)
ENDDO
ENDDO
C
ENEBEG=UUEBEG+VVEBEG+PPEBEG+BBEBEG
ENEEND=UUEEND+VVEEND+PPEEND+BBEEND
ENEOUT=UUEOUT+VVEOUT+PPEOUT+BBEOUT
C
VOLBMO=VOLBEG-VOLOUT
VOLBMO2T=VOLBEG2T-VOLOUT
BVOLBMO2T=BVOLBEG2T-BVOLOUT
WVOLBMO2T=WVOLBEG2T-WVOLOUT
SALBMO=SALBEG-SALOUT
DYEBMO=DYEBEG-DYEOUT
DYEBMO2T=DYEBEG2T-DYEOUT2T
UMOBMO=UMOBEG-DYEOUT
VMOBMO=VMOBEG-DYEOUT
ENEBMO=ENEBEG-ENEOUT
C
C TOXOUT2T(NT) IS NET TOXIC MASS GOING OUT OF DOMAIN DUE
c TO WATER COLUMN VOLUME SOURCES AND SINKS
C TOXBLB2T(NT) IS NET TOXIC MASS GOING OUT OF DOMAIN DUE
C DUE TO BED LOAD TRANSPORT OUT OF DOMAIN
C TOXFLUXW2T(NT) IS WATER COLUMN SIDE TOXIC FLUX DUE TO SUSPENDED LOAD
C (POSITIVE INTO WATER COLUMN)
C TOXFLUXB2T(NT) IS BED SIDE TOXIC FLUX DUE TO SUSPENDED LOAD (POSITIVE INTO WATER COLUMN)
C TADFLUX2T(NT) IS PORE WATER ADVECTION+DIFFUSION FLUX (POSITIVE INTO WATER COLUMN)
C TOXFBL2T(NT) IS NET TOXIC FLUX FROM BED ASSOCIATED WITH BED LOAD TRANSPORT
C (SHOULD EQUAL TOXBLB2T(NT)
C
DO NT=1,NTOX
TOXOUT2TW(NT)=TOXOUT2T(NT)-TOXFLUXW2T(NT)-TOXFLUXB2T(NT)
& -TADFLUX2T(NT)
TOXOUT2TB(NT)=TOXFLUXW2T(NT)+TOXFLUXB2T(NT)
& +TADFLUX2T(NT)+TOXFBL2T(NT)
C MODIFY TOXOUT2T TO INCLUDE BED LOAD BOUNDARY OUT
TOXOUT2T(NT)=TOXOUT2T(NT)+TOXBLB2T(NT)
TOXBMO2T(NT)=TOXBEG2T(NT)-TOXOUT2T(NT)
TOXBMO2TW(NT)=TOXBEG2TW(NT)-TOXOUT2TW(NT)
TOXBMO2TB(NT)=TOXBEG2TB(NT)-TOXOUT2TB(NT)
ENDDO
C
C SEDOUT2T(NS) IS IS NET COHESIVE MASS GOING OUT OF DOMAIN DUE
C TO WATER COLUMN VOLUME SOURCES AND SINKS
C SEDFLUX2T(NS) IS IS NET COHESIVE MASS FLUX POSITIVE FROM BED
C TO WATER COLUMN
C
DO NS=1,NSED
SEDOUT2TW(NS)=SEDOUT2T(NS)-SEDFLUX2T(NS)
SEDOUT2TB(NS)=SEDFLUX2T(NS)
SEDBMO2T(NS)=SEDBEG2T(NS)-SEDOUT2T(NS)
SEDBMO2TW(NS)=SEDBEG2TW(NS)-SEDOUT2TW(NS)
SEDBMO2TB(NS)=SEDBEG2TB(NS)-SEDOUT2TB(NS)
ENDDO
C
C SNDOUT2T(NS) IS NET NONCOHESIVE MASS GOING OUT OF DOMAIN DUE
c TO WATER COLUMN VOLUME SOURCES AND SINKS
C SBLOUT2T(NS) IS NET NONCOHESIVE SEDIMENT MASS GOING OUT OF DOMAIN DUE
c DUE TO BED LOAD TRANSPORT OUT OF DOMAIN
C SNDFLUX2T(NS) IS NET NONCOHESIVE SEDIMENT FLUX DUE TO SUSPENDED LOAD
C (POSITIVE INTO WATER COLUMN)
C SNDFBL2T(NS) IS NET NONCOHESIVE SEDIMENT FLUX FROM BED ASSOCIATED WITH
C BED LOAD TRANSPORT (SHOULD EQUAL SBLOUT2T(NSX))
C
DO NS=1,NSND
SNDOUT2TW(NS)=SNDOUT2T(NS)-SNDFLUX2T(NS)
SNDOUT2TB(NS)=SNDFLUX2T(NS)+SNDFBL2T(NS)
C MODIFY SNDOUT2T TO INCLUDE BED LOAD TRANSPORT OUT OF DOMAIN
SNDOUT2T(NS)=SNDOUT2T(NS)+SBLOUT2T(NS)
SNDBMO2T(NS)=SNDBEG2T(NS)-SNDOUT2T(NS)
SNDBMO2TW(NS)=SNDBEG2TW(NS)-SNDOUT2TW(NS)
SNDBMO2TB(NS)=SNDBEG2TB(NS)-SNDOUT2TB(NS)
ENDDO
C
VOLERR=VOLEND-VOLBMO
VOLERR2T=VOLEND2T-VOLBMO2T
BVOLERR2T=BVOLEND2T-BVOLBMO2T
WVOLERR2T=WVOLEND2T-WVOLBMO2T
SALERR=SALEND-SALBMO
DYEERR=DYEEND-DYEBMO
DYEERR2T=DYEEND2T-DYEBMO2T
UMOERR=UMOEND-UMOBMO
VMOERR=VMOEND-VMOBMO
ENEERR=ENEEND-ENEBMO
C
DO NS=1,NSED
SEDERR2T(NS)=SEDEND2T(NS)-SEDBMO2T(NS)
SEDERR2TW(NS)=SEDEND2TW(NS)-SEDBMO2TW(NS)
SEDERR2TB(NS)=SEDEND2TB(NS)-SEDBMO2TB(NS)
ENDDO
DO NS=1,NSND
SNDERR2T(NS)=SNDEND2T(NS)-SNDBMO2T(NS)
SNDERR2TW(NS)=SNDEND2TW(NS)-SNDBMO2TW(NS)
SNDERR2TB(NS)=SNDEND2TB(NS)-SNDBMO2TB(NS)
ENDDO
DO NT=1,NTOX
TOXERR2T(NT)=TOXEND2T(NT)-TOXBMO2T(NT)
TOXERR2TW(NT)=TOXEND2TW(NT)-TOXBMO2TW(NT)
TOXERR2TB(NT)=TOXEND2TB(NT)-TOXBMO2TB(NT)
ENDDO
C
RVERDE=-9999.
RVERDE2T=-9999.
RWVERDE2T=-9999.
RSERDE=-9999.
RDERDE=-9999.
RDERDE=-9999.
RUERDE2T=-9999.
RVERDE=-9999.
REERDE=-9999.
C
DO NS=1,NSED
RSEDERE2T(NS)=-9999.
RSEDERE2TW(NS)=-9999.
RSEDERE2TB(NS)=-9999.
ENDDO
DO NS=1,NSND
RSNDERE2T(NS)=-9999.
RSNDERE2TW(NS)=-9999.
RSNDERE2TB(NS)=-9999.
ENDDO
DO NT=1,NTOX
RTOXERE2T(NT)=-9999.
RTOXERE2TW(NT)=-9999.
RTOXERE2TB(NT)=-9999.
ENDDO
C
RVERDO=-9999.
RVERDO2T=-9999.
RWVERDO2T=-9999.
RSERDO=-9999.
RDERDO=-9999.
RDERDO2T=-9999.
RUERDO=-9999.
RVERDO=-9999.
REERDO=-9999.
RUMERDO=-9999. ! PMC
RVMERDO=-9999. ! PMC
C
DO NS=1,NSED
RSEDERO2T(NS)=-9999.
RSEDERO2TW(NS)=-9999.
RSEDERO2TB(NS)=-9999.
ENDDO
DO NS=1,NSND
RSNDERO2T(NS)=-9999.
RSNDERO2TW(NS)=-9999.
RSNDERO2TB(NS)=-9999.
ENDDO
DO NT=1,NTOX
RTOXERO2T(NT)=-9999.
RTOXERO2TW(NT)=-9999.
RTOXERO2TB(NT)=-9999.
ENDDO
C
RVERDE=-9999.
RVERDE2T=-9999.
RBVERDE2T=-9999.
RWVERDE2T=-9999.
RSERDE=-9999.
RDERDE=-9999.
RDERDE2T=-9999.
RUMERDE=-9999.
RVMERDE=-9999.
REERDE=-9999.
C
IF(VOLEND.NE.0.) RVERDE=VOLERR/VOLEND
IF(VOLEND2T.NE.0.) RVERDE2T=VOLERR2T/VOLEND2T
IF(BVOLEND2T.NE.0.) RBVERDE2T=BVOLERR2T/BVOLEND2T
IF(WVOLEND2T.NE.0.) RWVERDE2T=WVOLERR2T/WVOLEND2T
IF(SALEND.NE.0.) RSERDE=SALERR/SALEND
IF(DYEEND.NE.0.) RDERDE=DYEERR/DYEEND
IF(DYEEND2T.NE.0.) RDERDE2T=DYEERR2T/DYEEND2T
IF(UMOEND.NE.0.) RUMERDE=UMOERR/UMOEND
IF(VMOEND.NE.0.) RVMERDE=VMOERR/VMOEND
IF(ENEEND.NE.0.) REERDE=ENEERR/ENEEND
C
c DO NS=1,NSED
c IF(SEDEND2T(NS).NE.0.)
c & RSEDERE2T(NS)=SEDERR2T(NS)/SEDEND2T(NS)
c IF(SEDEND2TW(NS).NE.0.)
c & RSEDERE2TW(NS)=SEDERR2TW(NS)/SEDEND2TW(NS)
c IF(SEDEND2TB(NS).NE.0.)
c & RSEDERE2TB(NS)=SEDERR2TB(NS)/SEDEND2TB(NS)
c ENDDO
c DO NS=1,NSND
c IF(SNDEND2T(NS).NE.0.)
c & RSNDERE2T(NS)=SNDERR2T(NS)/SNDEND2T(NS)
c IF(SNDEND2TW(NS).NE.0.)
c & RSNDERE2TW(NS)=SNDERR2TW(NS)/SNDEND2TW(NS)
c IF(SNDEND2TB(NS).NE.0.)
c & RSNDERE2TB(NS)=SNDERR2TB(NS)/SNDEND2TB(NS)
c ENDDO
c DO NT=1,NTOX
c IF(TOXEND2T(NT).NE.0.)
c & RTOXERE2T(NT)=TOXERR2T(NT)/TOXEND2T(NT)
c IF(TOXEND2TW(NT).NE.0.)
c & RTOXERE2TW(NT)=TOXERR2TW(NT)/TOXEND2TW(NT)
c IF(TOXEND2TB(NT).NE.0.)
c & RTOXERE2TB(NT)=TOXERR2TB(NT)/TOXEND2TB(NT)
c ENDDO
C
C
DO NS=1,NSED
TMPVAL=0.5*(SEDEND2T(NS)+SEDBEG2T(NS))
IF(TMPVAL.NE.0.)
& RSEDERE2T(NS)=SEDERR2T(NS)/TMPVAL
TMPVAL=0.5*(SEDEND2TW(NS)+SEDBEG2TW(NS))
IF(TMPVAL.NE.0.)
& RSEDERE2TW(NS)=SEDERR2TW(NS)/TMPVAL
TMPVAL=0.5*(SEDEND2TB(NS)+SEDBEG2TB(NS))
IF(TMPVAL.NE.0.)
& RSEDERE2TB(NS)=SEDERR2TB(NS)/TMPVAL
ENDDO
DO NS=1,NSND
TMPVAL=0.5*(SNDEND2T(NS)+SNDBEG2T(NS))
IF(TMPVAL.NE.0.)
& RSNDERE2T(NS)=SNDERR2T(NS)/TMPVAL
TMPVAL=0.5*(SNDEND2TW(NS)+SNDBEG2TW(NS))
IF(TMPVAL.NE.0.)
& RSNDERE2TW(NS)=SNDERR2TW(NS)/TMPVAL
TMPVAL=0.5*(SNDEND2TB(NS)+SNDBEG2TB(NS))
IF(TMPVAL.NE.0.)
& RSNDERE2TB(NS)=SNDERR2TB(NS)/TMPVAL
ENDDO
DO NT=1,NTOX
TMPVAL=0.5*(TOXEND2T(NT)+TOXBEG2T(NT))
IF(TMPVAL.NE.0.)
& RTOXERE2T(NT)=TOXERR2T(NT)/TMPVAL
TMPVAL=0.5*(TOXEND2TW(NT)+TOXBEG2TW(NT))
IF(TMPVAL.NE.0.)
& RTOXERE2TW(NT)=TOXERR2TW(NT)/TMPVAL
TMPVAL=0.5*(TOXEND2TB(NT)+TOXBEG2TB(NT))
IF(TMPVAL.NE.0.)
& RTOXERE2TB(NT)=TOXERR2TB(NT)/TMPVAL
ENDDO
C
IF(VOLOUT.NE.0.) RVERDO=VOLERR/VOLOUT
IF(VOLOUT.NE.0.) RVERDO2T=VOLERR2T/VOLOUT
IF(VOLOUT.NE.0.) RWVERDO2T=WVOLERR2T/VOLOUT
IF(SALOUT.NE.0.) RSERDO=SALERR/SALOUT
IF(DYEOUT.NE.0.) RDERDO=DYEERR/DYEOUT
IF(DYEOUT2T.NE.0.) RDERDO2T=DYEERR2T/DYEOUT2T
IF(UMOOUT.NE.0.) RUMERDO=UMOERR/UMOOUT
IF(VMOOUT.NE.0.) RVMERDO=VMOERR/VMOOUT
IF(ENEOUT.NE.0.) REERDO=ENEERR/ENEOUT
C
DO NS=1,NSED
IF(SEDOUT2T(NS).NE.0.)
& RSEDERO2T(NS)=SEDERR2T(NS)/SEDOUT2T(NS)
IF(SEDOUT2TW(NS).NE.0.)
& RSEDERO2TW(NS)=SEDERR2TW(NS)/SEDOUT2TW(NS)
IF(SEDOUT2TB(NS).NE.0.)
& RSEDERO2TB(NS)=SEDERR2TB(NS)/SEDOUT2TB(NS)
ENDDO
DO NS=1,NSND
IF(SNDOUT2T(NS).NE.0.)
& RSNDERO2T(NS)=SNDERR2T(NS)/SNDOUT2T(NS)
IF(SNDOUT2TW(NS).NE.0.)
& RSNDERO2TW(NS)=SNDERR2TW(NS)/SNDOUT2TW(NS)
IF(SNDOUT2TB(NS).NE.0.)
& RSNDERO2TB(NS)=SNDERR2TB(NS)/SNDOUT2TB(NS)
ENDDO
DO NT=1,NTOX
IF(TOXOUT2T(NT).NE.0.)
& RTOXERO2T(NT)=TOXERR2T(NT)/TOXOUT2T(NT)
IF(TOXOUT2TW(NT).NE.0.)
& RTOXERO2TW(NT)=TOXERR2TW(NT)/TOXOUT2TW(NT)
IF(TOXOUT2TB(NT).NE.0.)
& RTOXERO2TB(NT)=TOXERR2TB(NT)/TOXOUT2TB(NT)
ENDDO
C
C**********************************************************************C
C
C ** OUTPUT BALANCE RESULTS TO FILE BAL2T.OUT
C
C----------------------------------------------------------------------C
C
IF(JSBAL.EQ.1)THEN
OPEN(89,FILE='BAL2T.OUT')
CLOSE(89,STATUS='DELETE')
OPEN(89,FILE='BAL2T.OUT')
OPEN(81,FILE='BAL2TERSTT.OUT')
CLOSE(81,STATUS='DELETE')
OPEN(81,FILE='BAL2TERSTT.OUT')
OPEN(82,FILE='BAL2TERSTW.OUT')
CLOSE(82,STATUS='DELETE')
OPEN(82,FILE='BAL2TERSTW.OUT')
OPEN(83,FILE='BAL2TERSTB.OUT')
CLOSE(83,STATUS='DELETE')
OPEN(83,FILE='BAL2TERSTB.OUT')
OPEN(84,FILE='BAL2TERVWT.OUT')
CLOSE(84,STATUS='DELETE')
OPEN(84,FILE='BAL2TERVWT.OUT')
JSBAL=0
ELSE
OPEN(89,FILE='BAL2T.OUT',POSITION='APPEND')
OPEN(81,FILE='BAL2TERSTT.OUT',POSITION='APPEND')
OPEN(82,FILE='BAL2TERSTW.OUT',POSITION='APPEND')
OPEN(83,FILE='BAL2TERSTB.OUT',POSITION='APPEND')
OPEN(84,FILE='BAL2TERVWT.OUT',POSITION='APPEND')
ENDIF
C
WRITE(89,899)
WRITE(89,890)NTSMMT,TIME
WRITE(89,891)
WRITE(89,892)VOLBEG,SALBEG,DYEBEG,ENEBEG,UMOBEG,VMOBEG,AMOBEG
WRITE(89,900)
WRITE(89,893)
WRITE(89,892)VOLOUT,SALOUT,DYEOUT,ENEOUT,UMOOUT,VMOOUT
WRITE(89,900)
WRITE(89,894)
WRITE(89,892)VOLBMO,SALBMO,DYEBMO,ENEBMO,UMOBMO,VMOBMO
WRITE(89,900)
WRITE(89,895)
WRITE(89,892)VOLEND,SALEND,DYEEND,ENEEND,UMOEND,VMOEND,AMOEND
WRITE(89,900)
WRITE(89,896)
WRITE(89,892)VOLERR,SALERR,DYEERR,ENEERR,UMOERR,VMOERR
WRITE(89,900)
WRITE(89,897)
WRITE(89,892)RVERDE,RSERDE,RDERDE,REERDE,RUMERDE,RVMERDE
WRITE(89,900)
WRITE(89,898)
WRITE(89,892)RVERDO,RSERDO,RDERDO,REERDO,RUMERDO,RVMERDO
WRITE(89,899)
UUEBMO=UUEBEG-UUEOUT
VVEBMO=VVEBEG-VVEOUT
PPEBMO=PPEBEG-PPEOUT
BBEBMO=BBEBEG-BBEOUT
WRITE(89,901)UUEBEG
WRITE(89,902)UUEOUT
WRITE(89,903)UUEBMO
WRITE(89,904)UUEEND
WRITE(89,900)
WRITE(89,905)VVEBEG
WRITE(89,906)VVEOUT
WRITE(89,907)VVEBMO
WRITE(89,908)VVEEND
WRITE(89,900)
WRITE(89,909)PPEBEG
WRITE(89,910)PPEOUT
WRITE(89,911)PPEBMO
WRITE(89,912)PPEEND
WRITE(89,900)
WRITE(89,913)BBEBEG
WRITE(89,914)BBEOUT
WRITE(89,915)BBEBMO
WRITE(89,916)BBEEND
WRITE(89,900)
WRITE(89,899)
C
WRITE(81,8888)TIME,(RSEDERE2T(NS),NS=1,NSED),
& (RSNDERE2T(NS),NS=1,NSND),(RTOXERE2T(NT),NT=1,NTOX)
C
WRITE(89,*)' NEW SEDIMENT-TOXIC MASS BALANCE W_COL+BED'
WRITE(89,*)' _BEG_ = BEGINNING GLOBAL MASS'
WRITE(89,*)' _OUT_ = NET MASS GOING OUT OF DOMAIN'
WRITE(89,*)' _BMO_ = BEGINNING - OUT'
WRITE(89,*)' _END_ = ENDING GLOBAL MASS'
WRITE(89,*)' _ERR_ = END - BMO'
WRITE(89,*)' _R_E_ = RELATIVE ERROR = 2.*ERR/(END+BEG)'
WRITE(89,*)' _R_O_ = RELATIVE ERROR = ERR/OUT'
WRITE(89,900)
WRITE(89,949)
NS=0
WRITE(89,950)NS,DYEBEG2T,DYEOUT2T,DYEBMO2T,
& DYEEND2T,DYEERR2T,RDERDE2T,RDERDO2T
WRITE(89,900)
WRITE(89,951)
DO NS=1,NSED
WRITE(89,950)NS,SEDBEG2T(NS),SEDOUT2T(NS),SEDBMO2T(NS),
& SEDEND2T(NS),SEDERR2T(NS),RSEDERE2T(NS),RSEDERO2T(NS),
& SEDFLUX2T(NS)
ENDDO
WRITE(89,900)
WRITE(89,952)
DO NS=1,NSND
WRITE(89,950)NS,SNDBEG2T(NS),SNDOUT2T(NS),SNDBMO2T(NS),
& SNDEND2T(NS),SNDERR2T(NS),RSNDERE2T(NS),RSNDERO2T(NS),
& SNDFLUX2T(NS),SBLOUT2T(NS)
ENDDO
WRITE(89,900)
WRITE(89,953)
DO NT=1,NTOX
WRITE(89,950)NT,TOXBEG2T(NT),TOXOUT2T(NT),TOXBMO2T(NT),
& TOXEND2T(NT),TOXERR2T(NT),RTOXERE2T(NT),RTOXERO2T(NT),
& TOXFLUXW2T(NT),TOXFLUXB2T(NT),TADFLUX2T(NT)
ENDDO
WRITE(89,900)
C
WRITE(82,8888)TIME,(RSEDERE2TW(NS),NS=1,NSED),
& (RSNDERE2TW(NS),NS=1,NSND),(RTOXERE2TW(NT),NT=1,NTOX)
C
WRITE(89,*)' NEW SEDIMENT-TOXIC MASS BALANCE WATER COL'
WRITE(89,*)' _BEG_ = BEGINNING GLOBAL MASS'
WRITE(89,*)' _OUT_ = NET MASS GOING OUT OF DOMAIN'
WRITE(89,*)' _BMO_ = BEGINNING - OUT'
WRITE(89,*)' _END_ = ENDING GLOBAL MASS'
WRITE(89,*)' _ERR_ = END - BMO'
WRITE(89,*)' _R_E_ = RELATIVE ERROR = 2.*ERR/(END+BEG)'
WRITE(89,*)' _R_O_ = RELATIVE ERROR = ERR/OUT'
WRITE(89,900)
WRITE(89,951)
DO NS=1,NSED
WRITE(89,950)NS,SEDBEG2TW(NS),SEDOUT2TW(NS),SEDBMO2TW(NS),
& SEDEND2TW(NS),SEDERR2TW(NS),RSEDERE2TW(NS),RSEDERO2TW(NS),
& SEDFLUX2T(NS)
ENDDO
WRITE(89,900)
WRITE(89,952)
SBLOUT2TT=0.0
DO NS=1,NSND
DSEDGMM=1./(1.E6*SSG(NS+NSED))
WRITE(89,950)NS,SNDBEG2TW(NS),SNDOUT2TW(NS),SNDBMO2TW(NS),
& SNDEND2TW(NS),SNDERR2TW(NS),RSNDERE2TW(NS),RSNDERO2TW(NS),
& SNDFLUX2T(NS),SBLOUT2T(NS)
SBLOUT2TT=SBLOUT2TT+DSEDGMM*SBLOUT2T(NS)
ENDDO
WRITE(89,900)
WRITE(89,953)
DO NT=1,NTOX
WRITE(89,950)NT,TOXBEG2TW(NT),TOXOUT2TW(NT),TOXBMO2TW(NT),
& TOXEND2TW(NT),TOXERR2TW(NT),RTOXERE2TW(NT),RTOXERO2TW(NT),
& TOXFLUXW2T(NT),TOXFLUXB2T(NT),TADFLUX2T(NT)
ENDDO
WRITE(89,900)
C
WRITE(83,8888)TIME,(RSEDERE2TB(NS),NS=1,NSED),
& (RSNDERE2TB(NS),NS=1,NSND),(RTOXERE2TB(NT),NT=1,NTOX)
C
WRITE(89,*)' NEW SEDIMENT-TOXIC MASS BALANCE BED'
WRITE(89,*)' _BEG_ = BEGINNING GLOBAL MASS'
WRITE(89,*)' _OUT_ = NET MASS GOING OUT OF DOMAIN'
WRITE(89,*)' _BMO_ = BEGINNING - OUT'
WRITE(89,*)' _END_ = ENDING GLOBAL MASS'
WRITE(89,*)' _ERR_ = END - BMO'
WRITE(89,*)' _R_E_ = RELATIVE ERROR = 2.*ERR/(END+BEG)'
WRITE(89,*)' _R_O_ = RELATIVE ERROR = ERR/OUT'
WRITE(89,900)
WRITE(89,951)
DO NS=1,NSED
WRITE(89,950)NS,SEDBEG2TB(NS),SEDOUT2TB(NS),SEDBMO2TB(NS),
& SEDEND2TB(NS),SEDERR2TB(NS),RSEDERE2TB(NS),RSEDERO2TB(NS),
& SEDFLUX2T(NS)
ENDDO
WRITE(89,900)
WRITE(89,952)
DO NS=1,NSND
WRITE(89,950)NS,SNDBEG2TB(NS),SNDOUT2TB(NS),SNDBMO2TB(NS),
& SNDEND2TB(NS),SNDERR2TB(NS),RSNDERE2TB(NS),RSNDERO2TB(NS),
& SNDFLUX2T(NS),SBLOUT2T(NS)
ENDDO
WRITE(89,900)
WRITE(89,953)
DO NT=1,NTOX
WRITE(89,950)NT,TOXBEG2TB(NT),TOXOUT2TB(NT),TOXBMO2TB(NT),
& TOXEND2TB(NT),TOXERR2TB(NT),RTOXERE2TB(NT),RTOXERO2TB(NT),
& TOXFLUXW2T(NT),TOXFLUXB2T(NT),TADFLUX2T(NT)
ENDDO
WRITE(89,900)
C
WRITE(84,8888)TIME,RVERDE2T,RWVERDE2T,RBVERDE2T
C
WRITE(89,*)' NEW TOTAL VOLUME (W_C+BED,WAT+SED) VOLUME BALANCE'
WRITE(89,*)' _BEG_ = BEGINNING GLOBAL VOLUME'
WRITE(89,*)' _OUT_ = NET VOLUME GOING OUT OF DOMAIN'
WRITE(89,*)' _BMO_ = BEGINNING - OUT'
WRITE(89,*)' _END_ = ENDING GLOBAL VOLUME'
WRITE(89,*)' _ERR_ = END - BMO'
WRITE(89,*)' _R_E_ = RELATIVE ERROR = ERR/END'
WRITE(89,*)' _R_O_ = RELATIVE ERROR = ERR/OUT'
WRITE(89,900)
WRITE(89,954)
WRITE(89,960)VOLBEG2T,VOLOUT,VOLBMO2T,
& VOLEND2T,VOLERR2T,RVERDE2T,RVERDO2T,SBLOUT2TT
WRITE(89,900)
WRITE(89,*)' NEW WATER VOLUME (W_COL,WATER+SED) VOLUME BALANCE'
WRITE(89,*)' _BEG_ = BEGINNING GLOBAL W_COL VOLUME'
WRITE(89,*)' _OUT_ = NET W_COL VOLUME GOING OUT OF DOMAIN'
WRITE(89,*)' _BMO_ = BEGINNING - OUT'
WRITE(89,*)' _END_ = ENDING GLOBAL W_COL VOLUME'
WRITE(89,*)' _ERR_ = END - BMO'
WRITE(89,*)' _R_E_ = RELATIVE ERROR = ERR/END'
WRITE(89,*)' _R_O_ = RELATIVE ERROR = ERR/OUT'
WRITE(89,900)
WRITE(89,955)
WRITE(89,960)WVOLBEG2T,WVOLOUT,WVOLBMO2T,
& WVOLEND2T,WVOLERR2T,RWVERDE2T,RWVERDO2T,VOLMORPH2T
C
WRITE(89,900)
WRITE(89,*)' SEE NOTES IN BAL2T5 FOR INTERPRETATION OF FOLLOWING'
WRITE(89,900)
C
DO NS=1,NSED
WRITE(89,900)
WRITE(89,8899)'SEDBEG2T(NS) = ',SEDBEG2T(NS)
WRITE(89,8899)'SEDBEG2TB(NS) = ',SEDBEG2TB(NS)
WRITE(89,8899)'SEDBEG2TW(NS) = ',SEDBEG2TW(NS)
WRITE(89,8899)'SEDEND2T(NS) = ',SEDEND2T(NS)
WRITE(89,8899)'SEDEND2TB(NS) = ',SEDEND2TB(NS)
WRITE(89,8899)'SEDEND2TW(NS) = ',SEDEND2TW(NS)
WRITE(89,8899)'SEDOUT2T(NS) = ',SEDOUT2T(NS)
WRITE(89,8899)'SEDFLUX2T(NS) = ',SEDFLUX2T(NS)
ENDDO
C
DO NS=1,NSND
C MODIFY SNDOUT2T BACK TO ORGINAL DEFINITION
SNDOUT2T(NS)=SNDOUT2T(NS)-SBLOUT2T(NS)
WRITE(89,900)
WRITE(89,8899)'SNDBEG2T(NS) = ',SNDBEG2T(NS)
WRITE(89,8899)'SNDBEG2TB(NS) = ',SNDBEG2TB(NS)
WRITE(89,8899)'SNDBEG2TW(NS) = ',SNDBEG2TW(NS)
WRITE(89,8899)'SNDEND2T(NS) = ',SNDEND2T(NS)
WRITE(89,8899)'SNDEND2TB(NS) = ',SNDEND2TB(NS)
WRITE(89,8899)'SNDEND2TW(NS) = ',SNDEND2TW(NS)
WRITE(89,8899)'SNDOUT2T(NS) = ',SNDOUT2T(NS)
WRITE(89,8899)'SNDFLUX2T(NS) = ',SNDFLUX2T(NS)
WRITE(89,8899)'SNDFBL2T(NS) = ',SNDFBL2T(NS)
WRITE(89,8899)'SBLOUT2T(NS) = ',SBLOUT2T(NS)
ENDDO
C
DO NT=1,NTOX
C MODIFY TOXOUT2T BACK TO ORIGINAL DEFINITION
TOXOUT2T(NT)=TOXOUT2T(NT)-TOXBLB2T(NT)
WRITE(89,900)
WRITE(89,8899)'TOXBEG2T(NT) = ',TOXBEG2T(NT)
WRITE(89,8899)'TOXBEG2TB(NT) = ',TOXBEG2TB(NT)
WRITE(89,8899)'TOXBEG2TW(NT) = ',TOXBEG2TW(NT)
WRITE(89,8899)'TOXEND2T(NT) = ',TOXEND2T(NT)
WRITE(89,8899)'TOXEND2TB(NT) = ',TOXEND2TB(NT)
WRITE(89,8899)'TOXEND2TW(NT) = ',TOXEND2TW(NT)
WRITE(89,8899)'TOXOUT2T(NT) = ',TOXOUT2T(NT)
WRITE(89,8899)'TOXFLUXW2T(NT) = ',TOXFLUXW2T(NT)
WRITE(89,8899)'TOXFLUXB2T(NT) = ',TOXFLUXB2T(NT)
WRITE(89,8899)'TOXFBL2T(NT) = ',TOXFBL2T(NT)
WRITE(89,8899)'TOXBLB2T(NT) = ',TOXBLB2T(NT)
WRITE(89,8899)'TADFLUX2T(NT) = ',TADFLUX2T(NT)
ENDDO
C
CLOSE(89)
CLOSE(81)
CLOSE(82)
CLOSE(83)
CLOSE(84)
C
8899 FORMAT(A18,E15.7)
950 FORMAT(I5,12E17.9)
960 FORMAT(5X,12E17.9)
949 FORMAT(' NDYE DYEBEG2T DYEOUT2T DYEBMO2T ',
&' DYEEND2T DYEERR2T RDYEERE2T',
&' RDYEERO2T ',/)
951 FORMAT(' NSED SEDBEG2T(NS) SEDOUT2T(NS) SEDBMO2T(NS) ',
& ' SEDEND2T(NS) SEDERR2T(NS) RSEDERE2T(NS)',
& ' RSEDERO2T(NS)',
& ' SEDFLUX2T(NS)',/)
952 FORMAT(' NSND SNDBEG2T(NS) SNDOUT2T(NS) SNDBMO2T(NS) ',
& ' SNDEND2T(NS) SNDERR2T(NS) RSNDERE2T(NS)',
& ' RSNDERO2T(NS)',
& ' SNDFLUX2T(NS) SBLOUT2T(NS)',/)
953 FORMAT(' NT TOXBEG2T(NT) TOXOUT2T(NT) TOXBMO2T(NT) ',
& ' TOXEND2T(NT) TOXERR2T(NT) RTOXERE2T(NT)',
& ' RTOXERO2T(NT)',
& ' TOXFLUXW2T(NT) TOXFLUXB2T(NT) TADFLUX2T(NT)',/)
954 FORMAT(' VOLBEG2T VOLOUT VOLBMO2T ',
& ' ',
& ' VOLEND2T VOLERR2T RVERDE2T',
& ' RVERDO2T VOLBLOUT',/)
955 FORMAT(' WVOLBEG2T WVOLOUT WVOLBMO2T ',
& ' ',
& ' WVOLEND2T WVOLERR2T RWVERDE2T',
& ' RWVERDO2T VOLMORPH2T',/)
890 FORMAT (' VOLUME, MASS, AND ENERGY BALANCE OVER',I12,' TIME STEPS'
&,' ENDING AT TIME ',F12.4,//)
891 FORMAT (' INITIAL VOLUME INITIAL SALT INITIAL DYE '
&,'INITIAL ENER INITIAL UMO INITIAL VMO '
&,'INITIAL AMO',/)
892 FORMAT (1X,7(E14.6,2X))
893 FORMAT (' VOLUME OUT SALT OUT DYE OUT '
&,'ENERGY OUT UMO OUT VMO OUT',/)
894 FORMAT (' INITIAL-OUT VOL INIT-OUT SALT INIT-OUT DYE '
&,'INIT-OUT ENER INIT-OUT UMO INIT-OUT VMO',/)
895 FORMAT (' FINAL VOLUME FINAL SALT FINAL DYE '
&,'FINAL ENERGY FINAL UMO FINAL VMO '
&,'FINAL AMO',/)
896 FORMAT (' VOLUME ERR SALT ERR DYE ERR '
&,'ENERGY ERR UMO ERR VMO ERR',/)
897 FORMAT (' R VOL/END ER R SAL/END ER R DYE/END ER '
&,'R ENE/END ER R UMO/END ER R VMO/END ER',/)
898 FORMAT (' R VOL/OUT ER R SAL/OUT ER R DYE/OUT ER '
&,'R ENE/OUT ER R UMO/OUT ER R VMO/OUT ER',/)
899 FORMAT (////)
900 FORMAT (//)
901 FORMAT(' UUEBEG = ',E14.6)
902 FORMAT(' UUEOUT = ',E14.6)
903 FORMAT(' UUEBMO = ',E14.6)
904 FORMAT(' UUEEND = ',E14.6)
905 FORMAT(' VVEBEG = ',E14.6)
906 FORMAT(' VVEOUT = ',E14.6)
907 FORMAT(' VVEBMO = ',E14.6)
908 FORMAT(' VVEEND = ',E14.6)
909 FORMAT(' PPEBEG = ',E14.6)
910 FORMAT(' PPEOUT = ',E14.6)
911 FORMAT(' PPEBMO = ',E14.6)
912 FORMAT(' PPEEND = ',E14.6)
913 FORMAT(' BBEBEG = ',E14.6)
914 FORMAT(' BBEOUT = ',E14.6)
915 FORMAT(' BBEBMO = ',E14.6)
916 FORMAT(' BBEEND = ',E14.6)
8888 FORMAT(F10.2,10E14.6)
C
C**********************************************************************C
C
C RESET COUNTER
C
NBAL=0
C
ENDIF
C
C**********************************************************************C
C
RETURN
END