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EEXPOUT.for
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EEXPOUT.for
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SUBROUTINE EEXPOUT(JSEXPLORER)
!----------------------------------------------------------------
! ** SUBROUTINE EEXPOUT WRITES BINARY OUTPUT FILES:
! ** EE_WC - WATER COLUMN AND TOP LAYER OF SEDIMENTS
! ** EE_BED - SEDIMENT BED LAYER INFORMATION
! ** EE_WQ - WATER QUALITY INFORMATION FOR THE WATER COLUMN
! ** EE_SD - SEDIMENT DIAGENSIS INFORMATION
! ** EE_ARRAYS - GENERAL/USER DEFINED ARRAY DUMP. LINKED TO
! ** EFDC_EXPLORER FOR DISPLAY
! ** EE_SEDZLJ - SEDIMENT BED DATA FOR SEDZLJ SUB-MODEL
!----------------------------------------------------------------
! *** Notes:
USE GLOBAL
INTEGER*4 VER
CHARACTER*8 ARRAYNAME
INTEGER*4 IWQ(40), NACTIVE
INTEGER*4 JSEXPLORER,NS,NW,MW,NSEDSTEPS,NSXD
INTEGER*4 L,K,ISYS,NT,NX,N1
REAL*4 TMPVAL,WQ
REAL*4 ZERO, SHEAR
SAVE IWQ
SAVE NSEDSTEPS
IF(ISDYNSTP.EQ.0)THEN
DELT=DT
ELSE
DELT=DTDYN
ENDIF
NACTIVE=LA-1
C ** INITIAL CALL
IF(JSEXPLORER.EQ.1)THEN
OPEN(95,FILE='EE_WC.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
CLOSE(95,STATUS='DELETE')
OPEN(95,FILE='EE_WC.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
VER=106
WRITE(95)VER
WRITE(95)ISTRAN(1),ISTRAN(2),ISTRAN(3),ISTRAN(4)
WRITE(95)ISTRAN(5),ISTRAN(6),ISTRAN(7)
WRITE(95)NSED,NSND,KB,KC,NTOX
NSXD=NSED+NSND
DO NS=1,NSXD
WRITE(95)SEDDIA(NS)
ENDDO
CLOSE(95,STATUS='KEEP')
IF(ISTRAN(6).GT.0.AND.NSEDFLUME.GT.0)THEN
OPEN(95,FILE='EE_SEDZLJ.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
CLOSE(95,STATUS='DELETE')
OPEN(95,FILE='EE_SEDZLJ.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
VER=100
WRITE(95)VER
WRITE(95)ITBM,NSICM
CLOSE(95,STATUS='KEEP')
ENDIF
IF(ISBEXP.GE.1)THEN
IF(ISTRAN(6).GE.1.OR.ISTRAN(7).GE.1)THEN
OPEN(10,FILE='EE_BED.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
CLOSE(10,STATUS='DELETE')
OPEN(10,FILE='EE_BED.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
VER=106
WRITE(10)VER
WRITE(10)ISTRAN(1),ISTRAN(2),ISTRAN(3),ISTRAN(4)
WRITE(10)ISTRAN(5),ISTRAN(6),ISTRAN(7)
WRITE(10)NSED,NSND,KB,KC,NTOX
DO NS=1,NSXD
WRITE(10)SEDDIA(NS)
ENDDO
CLOSE(10,STATUS='KEEP')
ENDIF
ENDIF
IF(ISTRAN(8).GT.0)THEN
OPEN(95,FILE='EE_WQ.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
CLOSE(95,STATUS='DELETE')
OPEN(95,FILE='EE_WQ.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
VER=100
WRITE(95)VER
WRITE(95)NWQV
WRITE(95)(ISTRWQ(NW),NW=1,NWQV)
IWQ=0
DO MW=1,NWQV
IWQ(MW)=ISTRWQ(MW)
ENDDO
WRITE(95)(IWQ(NW),NW=1,NWQV)
CLOSE(95,STATUS='KEEP')
! *** SAVE SEDIMENT DIAGENESIS RESULTS
IF(ISSDBIN.LT.0)THEN
OPEN(95,FILE='EE_SD.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
CLOSE(95,STATUS='DELETE')
OPEN(95,FILE='EE_SD.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
VER=100
WRITE(95)VER
WRITE(95)NACTIVE
CLOSE(95,STATUS='KEEP')
NSEDSTEPS=-1
ENDIF
ENDIF
ELSEIF(JSEXPLORER.EQ.-1)THEN
! *** FORCE ALL OUTPUT
NSEDSTEPS=32000
ENDIF
C *** WRITE SNAPSHOT
IF(ISDYNSTP.EQ.0)THEN
EETIME=DT*FLOAT(N)+TCON*TBEGIN
ELSE
EETIME=TIMESEC
ENDIF
IF(JSEXPLORER.EQ.1)EETIME=TCON*TBEGIN
EETIME=EETIME/86400.
IF(ISSPH(8).GE.1)THEN
OPEN(95,FILE='EE_WC.OUT',STATUS='OLD',
& POSITION='APPEND',FORM='BINARY')
WRITE(95)EETIME,NACTIVE
DO L=2,LA
N1=KBT(L)
IF(ISTRAN(6).GT.0.OR.ISTRAN(7).GT.0)THEN
IF(ISBEDSTR.GE.1.AND.NSEDFLUME.EQ.0)THEN
WRITE(95)TAUBSED(L)
IF(ISBEDSTR.EQ.1)THEN
WRITE(95)TAUBSND(L)
ENDIF
ELSE
WRITE(95)TAUB(L)
ENDIF
ELSE
SHEAR=MAX(QQ(L,0),QQMIN)/CTURB2
WRITE(95)SHEAR
ENDIF
IF(ISWAVE.GE.1)THEN
! *** Shear due to Current Only
SHEAR = (RSSBCE(L)*TBX(L+1 )+RSSBCW(L)*TBX(L))**2
& +(RSSBCN(L)*TBY(LNC(L))+RSSBCS(L)*TBY(L))**2
SHEAR=0.5*SQRT(SHEAR)
WRITE(95)SHEAR
IF(ISWAVE.EQ.3)THEN
WRITE(95)WVWHA(L),WVFRQL(L),WACCWE(L)
ENDIF
ENDIF
IF(ISTRAN(1).EQ.1)WRITE(95)(SAL(L,K),K=1,KC)
IF(ISTRAN(2).EQ.1)THEN
WRITE(95)(TEM(L,K),K=1,KC)
IF(TBEDIT.GT.0.)WRITE(95)TEMB(L)
ENDIF
IF(ISTRAN(3).EQ.1)WRITE(95,ERR=999,IOSTAT=ISYS)
& (DYE(L,K),K=1,KC)
IF(ISTRAN(4).EQ.1)WRITE(95)(SFL(L,K),K=1,KC)
IF(ISTRAN(5).EQ.1)THEN
WRITE(95)(TOXB(L,N1,NT),NT=1,NTOX)
WRITE(95)((TOX(L,K,NT),K=1,KC),NT=1,NTOX)
ENDIF
IF(ISTRAN(6).EQ.1.OR.ISTRAN(7).GE.1)THEN
WRITE(95)N1,BELV(L),HBED(L,N1),BDENBED(L,N1),PORBED(L,N1)
IF(ISTRAN(6).EQ.1)THEN
WRITE(95)(SEDB(L,N1,NS),VFRBED(L,N1,NS),NS=1,NSED)
WRITE(95)((SED(L,K,NS),K=1,KC),NS=1,NSED)
ENDIF
IF(ISTRAN(7).EQ.1)THEN
WRITE(95)(SNDB(L,N1,NX),VFRBED(L,N1,NX+NSED),NX=1,NSND)
WRITE(95)((SND(L,K,NX),K=1,KC),NX=1,NSND)
IF(ISBDLDBC.GT.0)THEN
WRITE(95)(CQBEDLOADX(L,NX),CQBEDLOADY(L,NX),NX=1,NSND)
ENDIF
ENDIF
ENDIF
ENDDO
CALL FLUSH(95)
CLOSE(95,STATUS='KEEP')
ENDIF
! *** OUTPUT THE SEDZLJ VARIABLES
IF(ISTRAN(6).GT.0.AND.NSEDFLUME.GT.0)THEN
OPEN(95,FILE='EE_SEDZLJ.OUT',STATUS='OLD',
& POSITION='APPEND',FORM='BINARY')
WRITE(95)EETIME,NACTIVE
DO L=2,LA
WRITE(95) REAL(TAU(L)) !TAU(LCM) - Shear Stress in dynes/cm^2
WRITE(95) REAL(D50AVG(L)) !D50AVG(LCM) - Average particle size of bed surface (microns)
WRITE(95) REAL(ETOTO(L)) !ETOTO(LCM) - Total erosion in the cell
DO NT=1,NSCM
WRITE(95) REAL(CBL(1,L,NT)) !CBL(NSCM,LCM) - This is the bedload concentration in g/cm^3 of each size class
WRITE(95) REAL(XBLFLUX(L,NT)) !XBLFLUX(LCM,NSCM) - Bedload flux in X direction (g/s)
WRITE(95) REAL(YBLFLUX(L,NT)) !YBLFLUX(LCM,NSCM) - Bedload flux in Y direction (g/s)
DO K=1,KB
WRITE(95) REAL(PER(NT,K,L)) !PER(NSCM,KB,LCM) - This is the mass percentage of each size class in a layer
ENDDO
ENDDO
DO K=1,KB
WRITE(95) LAYER(K,L) !LAYER(KB,LCM) - This is = 1 when a bed layer (KB index) exists with mass
WRITE(95) REAL(TSED(K,L)) !TSED(KB,LCM) - This is the mass in g/cm^2 in each layer
WRITE(95) REAL(BULKDENS(K,L)) !BULKDENS(KB,LCM) - Dry Bulk density of each layer (g/cm^3)
ENDDO
ENDDO
CALL FLUSH(95)
CLOSE(95,STATUS='KEEP')
ENDIF
C *** NOW OUTPUT ALL THE BEDINFO TO A SINGLE FILE
IF(ISBEXP.GE.1)THEN
IF(ISTRAN(6).GE.1.OR.ISTRAN(7).GE.1.AND.KB.GT.1)THEN
OPEN(10,FILE='EE_BED.OUT',STATUS='UNKNOWN',POSITION='APPEND'
& ,FORM='BINARY')
WRITE(10)EETIME,NACTIVE
DO L=2,LA
WRITE(10)KBT(L)
ENDDO
DO L=2,LA
DO K=1,KB
WRITE(10)HBED(L,K),BDENBED(L,K),PORBED(L,K)
IF(ISTRAN(6).GE.1)THEN
DO NS=1,NSED
WRITE(10)SEDB(L,K,NS),VFRBED(L,K,NS)
ENDDO
ENDIF
IF(ISTRAN(7).GE.1)THEN
DO NX=1,NSND
NS=NSED+NX
WRITE(10)SNDB(L,K,NX),VFRBED(L,K,NS)
ENDDO
ENDIF
IF(ISTRAN(5).GE.1)THEN
DO NT=1,NTOX
WRITE(10)TOXB(L,K,NT)
ENDDO
ENDIF
ENDDO
ENDDO
CALL FLUSH(10)
CLOSE(10,STATUS='KEEP')
ENDIF
ENDIF
C *** INTERNAL ARRAYS
IF(ISINWV.EQ.2.AND.JSEXPLORER.LE.0)THEN
ZERO=0.0
IF(N.LT.(2*NTSPTC/NPSPH(8)))THEN
OPEN(95,FILE='EE_ARRAYS.OUT',STATUS='UNKNOWN')
CLOSE(95,STATUS='DELETE')
OPEN(95,FILE='EE_ARRAYS.OUT',STATUS='UNKNOWN',
& ACCESS='SEQUENTIAL',FORM='BINARY')
VER=100
WRITE(95)VER
WRITE(95)3 ! # OF TIME VARYING ARRAYS
! FLAGS: ARRAY TYPE, TIME VARIABLE
! ARRAY TYPE: 0 = L DIM'D
! 1 = L,KC DIM'D
! 2 = L,0:KC DIM'D
! 3 = L,KB DIM'D
! 4 = L,KC,NCLASS DIM'D
! TIME VARIABLE: 0 = NOT CHANGING
! 1 = TIME VARYING
!WRITE(95)0,0
!ARRAYNAME='SUB'
!WRITE(95)ARRAYNAME
!DO L=2,LA
! WRITE(95)SUB(L)
!ENDDO
!WRITE(95)0,0
!ARRAYNAME='SVB'
!WRITE(95)ARRAYNAME
!DO L=2,LA
! WRITE(95)SVB(L)
!ENDDO
WRITE(95)1,0
ARRAYNAME='FXWAVE'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)FXWAVE(L,K)
ENDDO
ENDDO
WRITE(95)1,0
ARRAYNAME='FYWAVE'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)FYWAVE(L,K)
ENDDO
ENDDO
ELSE
OPEN(95,FILE='EE_ARRAYS.OUT',STATUS='UNKNOWN',
& POSITION='APPEND',FORM='BINARY')
ENDIF
IF(.TRUE.)THEN
WRITE(95)1,1
ARRAYNAME='AH'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)AH(L,K)
ENDDO
ENDDO
WRITE(95)1,1
ARRAYNAME='AV'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)(AV(L,K)*HP(L))
ENDDO
ENDDO
WRITE(95)2,1
ARRAYNAME='QQ'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=0,KC
WRITE(95)QQ(L,K)
ENDDO
ENDDO
IF(.FALSE.)THEN
! *** FMDUX FMDUY FMDVY FMDVX
WRITE(95)1,1
ARRAYNAME='FMDUX'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)FMDUX(L,K)
ENDDO
ENDDO
WRITE(95)1,1
ARRAYNAME='FMDUY'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)FMDUY(L,K)
ENDDO
ENDDO
WRITE(95)1,1
ARRAYNAME='FMDVY'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)FMDVY(L,K)
ENDDO
ENDDO
WRITE(95)1,1
ARRAYNAME='FMDVX'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)FMDVX(L,K)
ENDDO
ENDDO
WRITE(95)1,1
ARRAYNAME='U'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)U(L,K)
ENDDO
ENDDO
WRITE(95)1,1
ARRAYNAME='V'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)V(L,K)
ENDDO
ENDDO
WRITE(95)0,1
ARRAYNAME='UHDYE'
WRITE(95)ARRAYNAME
DO L=2,LA
WRITE(95)UHDYE(L)
ENDDO
WRITE(95)0,1
ARRAYNAME='VHDXE'
WRITE(95)ARRAYNAME
DO L=2,LA
WRITE(95)VHDXE(L)
ENDDO
WRITE(95)0,1
ARRAYNAME='FXE'
WRITE(95)ARRAYNAME
DO L=2,LA
TMPVAL=FXE(L)*DELT*DXIU(L)
WRITE(95)TMPVAL
ENDDO
WRITE(95)0,1
ARRAYNAME='FYE'
WRITE(95)ARRAYNAME
DO L=2,LA
TMPVAL=FYE(L)*DELT*DYIV(L)
WRITE(95)TMPVAL
ENDDO
WRITE(95)0,1
ARRAYNAME='FUHX'
WRITE(95)ARRAYNAME
DO L=2,LA
TMPVAL=AHC(L,1)*DELT*DXIU(L)
WRITE(95)TMPVAL
ENDDO
WRITE(95)0,1
ARRAYNAME='FVHY'
WRITE(95)ARRAYNAME
DO L=2,LA
TMPVAL=AHC(L,2)*DELT*DYIV(L)
WRITE(95)TMPVAL
ENDDO
WRITE(95)1,1
ARRAYNAME='FUHU'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)AHU(L,K)
ENDDO
ENDDO
WRITE(95)1,1
ARRAYNAME='FVHU'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)AMCU(L,K)
ENDDO
ENDDO
WRITE(95)1,1
ARRAYNAME='FVHV'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)AMCV(L,K)
ENDDO
ENDDO
WRITE(95)1,1
ARRAYNAME='FUHV'
WRITE(95)ARRAYNAME
DO L=2,LA
DO K=1,KC
WRITE(95)AMSU(L,K)
ENDDO
ENDDO
ENDIF
!WRITE(95)0,1
!ARRAYNAME='TATMT'
!WRITE(95)ARRAYNAME
!DO L=2,LA
! WRITE(95)TATMT(L)
!ENDDO
ENDIF
C
CALL FLUSH(95)
CLOSE(95,STATUS='KEEP')
ENDIF
C *** WATER QUALITY
IF(ISTRAN(8).GT.0)THEN
! 1) CHC - cyanobacteria
! 2) CHD - diatom algae
! 3) CHG - green algae
! 4) ROC - refractory particulate organic carbon
! 5) LOC - labile particulate organic carbon
! 6) DOC - dissolved organic carbon
! 7) ROP - refractory particulate organic phosphorus
! 8) LOP - labile particulate organic phosphorus
! 9) DOP - dissolved organic phosphorus
! 10) P4D - total phosphate
! 11) RON - refractory particulate organic nitrogen 22) macroalgae
! 12) LON - labile particulate organic nitrogen
! 13) DON - dissolved organic nitrogen
! 14) NHX - ammonia nitrogen
! 15) NOX - nitrate nitrogen
! 16) SUU - particulate biogenic silica
! 17) SAA - dissolved available silica
! 18) COD - chemical oxygen demand
! 19) DOX - dissolved oxygen
! 20) TAM - total active metal
! 21) FCB - fecal coliform bacteria
OPEN(95,FILE='EE_WQ.OUT',STATUS='UNKNOWN',POSITION='APPEND',
& FORM='BINARY')
WRITE(95)EETIME
DO L=2,LA
DO K=1,KC
DO NW=1,NWQV
IF(IWQ(NW).GT.0)THEN
WQ=WQV(L,K,NW)
WRITE(95)WQ
ENDIF
ENDDO
ENDDO
ENDDO
CALL FLUSH(95)
CLOSE(95,STATUS='KEEP')
! *** SAVE SEDIMENT DIAGENESIS RESULTS
IF(IWQBEN.GT.0.AND.ISSDBIN.LT.0)THEN
! *** IF JSEXPLORER=1 THEN WRITE THE ARRAYS (I.E. IC'S)
NSEDSTEPS=NSEDSTEPS+1
IF(NSEDSTEPS.GE.ABS(ISSDBIN).OR.JSEXPLORER.EQ.1)THEN
OPEN(95,FILE='EE_SD.OUT',STATUS='UNKNOWN',POSITION='APPEND',
& FORM='BINARY')
WRITE(95)EETIME
DO L=2,LA
! SMPON = Conc. Particulate Org. Nitrogen in G-class 1, 2 & 3 (g/m3) dim(LA,NSMGM)
! SMPOP = Conc. Particulate Org. Phosphorus in G-class 1, 2 & 3 (g/m3) dim(LA,NSMGM)
! SMPOC = Conc. Particulate Org. Carbon in G-class 1, 2 & 3 (g/m3) dim(LA,NSMGM)
! *** DEPOSITION FLUXES
! SMDFN(LL,?) = Sediment Flux To The Sediment Bed From PON Into G1, G2, & G3
! SMDFP(LL,?) = Sediment Flux To The Sediment Bed From POP Into G1, G2, & G3
! SMDFC(LL,?) = Sediment Flux To The Sediment Bed From POC Into G1, G2, & G3
! SM1NH4 = Conc. NH4-N in layer 1 (g/m3) dim(LA)
! SM2NH4 = Conc. NH4-N in layer 2 (g/m3)
! SM1NO3 = Conc. NO3-N in layer 1 (g/m3)
! SM2NO3 = Conc. NO3-N in layer 2 (g/m3)
! SM1PO4 = Conc. PO4-P in layer 1 (g/m3)
! SM2PO4 = Conc. PO4-P in layer 2 (g/m3)
! SM1H2S = Conc. Sulfide (H2S) in layer 1 (g/m3)
! SM2H2S = Conc. Sulfide (H2S) in layer 2 (g/m3)
! SMPSI = Conc. Particulate biogenic silica in layer 2 (g/m3)
! SM1SI = Conc. Dissolved available silica in layer 1 (g/m3)
! SM2SI = Conc. Dissolved available silica in layer 2 (g/m3)
! SMBST = Accumulated benthic stress (days)
! SMT = Sediment temperature (degC)
! *** SEDIMENT OXYGEN DEMANDS
! SMCSOD = CARBONACEOUS SOD
! SMNSOD = NITROGENOUS SOD
! *** BENTHIC FLUXES
! WQBFNH4 = AMMONIUM FLUX
! WQBFNO3 = NITRATE FLUX
! WQBFO2 = O2 SEDIMENT FLUX (SOD)
! WQBFCOD = COD FLUX
! WQBFPO4D = PO4 FLUX
! WQBFSAD = SILICA FLUX
WRITE(95)(SMPON(L,K),K=1,3)
WRITE(95)(SMPOP(L,K),K=1,3)
WRITE(95)(SMPOC(L,K),K=1,3)
WRITE(95)(SMDFN(L,K),K=1,3)
WRITE(95)(SMDFP(L,K),K=1,3)
WRITE(95)(SMDFC(L,K),K=1,3)
WRITE(95)SM1NH4(L),SM2NH4(L)
WRITE(95)SM1NO3(L),SM2NO3(L)
WRITE(95)SM1PO4(L),SM2PO4(L)
WRITE(95)SM1H2S(L),SM2H2S(L)
WRITE(95)SM1SI(L), SM2SI(L)
WRITE(95)SMPSI(L)
WRITE(95)SMBST(L),SMT(L)
WRITE(95)SMCSOD(L),SMNSOD(L)
WRITE(95)WQBFNH4(L),WQBFNO3(L),WQBFO2(L),WQBFCOD(L),
& WQBFPO4D(L),WQBFSAD(L)
ENDDO
CALL FLUSH(95)
CLOSE(95,STATUS='KEEP')
NSEDSTEPS=0
ENDIF
ENDIF
ENDIF
RETURN
999 STOP ' Error writing SNAPSHOT file'
END