****************************************************************************** * * * WELCOME TO THE ENVIRONMENTAL FLUID DYNAMICS COMPUTER CODE SERIES * * ORIGINALLY DEVELOPED BY JOHN M. HAMRICK. * * * * THIS IS THE MASTER INPUT FILE EFDC.INP. * * FOR EFDC+ VERSION DATED AFTER 2016-04-04 * * VERSION ID AND DATE OF RELEASE CAN INFLUENCE INPUT FORMAT * * DO NOT CHANGE WITHOUT CHECKING INPUT.F90 * * * * GENERATED WITH DYNAMIC SOLUTIONS-INTERNATIONAL'S EFDC_Explorer8.4 * * EE8.4.1 Rel 180524 * ****************************************************************************** * PROJECT NAME: ****************************************************************************** C1 RUN TITLE * TEXT DESCRIPTION FOR THIS RUN C1 TITLE Title ------------------------------------------------------------------------------- C1A GRID CONFIGURATION AND TIME INTEGRATION MODE SELECTION * * IS2TIM: 0 THREE-TIME LEVEL INTEGRATION * 1 TWO-TIME LEVEL INTEGRATION * * IGRIDH: NOT USED * * IGRIDV: 0 STANDARD SIGMA VERTICAL GRID OR SINGLE LAYER DEPTH AVERAGE * 1 SIGMA-ZED (SGZ) VERTICAL LAYERING ALLOWING VARYING LAYERS FOR EACH CELL (DSI) * 2 SIGMA-ZED (SGZ) VERTICAL GRID USING UNIFORM LAYER THICKENSS AT SURFACE (DSI) * SGZMin: MINIMUM NUMBER OF LAYERS FOR SIGMA-ZED * SGZHPDelta: TYPICAL RISE OF WATER ABOVE THE INITIAL CONDITIONS WHEN IGRIDV>0 (M) * C1A IS2TIM IGRIDH IGRIDV SGZMin SGZHPDelta 1 0 0 5 0 ------------------------------------------------------------------------------- C2 RESTART, GENERAL CONTROL AND AND DIAGNOSTIC SWITCHES * * ISRESTI: 1 FOR READING INITIAL CONDITIONS FROM FILE restart.inp * -1 AS ABOVE BUT ADJUST FOR CHANGING BOTTOM ELEVATION * 10 FOR READING IC'S FROM restart.inp WRITTEN BEFORE 8 SEPT 92 * * ISRESTO: -1 FOR WRITING RESTART FILE restart.out AT END OF RUN * N INTEGER.GE.0 FOR WRITING restart*.out EVERY N REF TIME PERIODS * ISRESTR: 1 FOR WRITING RESIDUAL TRANSPORT FILE RESTRAN.OUT * ISGREGOR: 0/1 NOT USE/USE DATE STAMPED RESTART FILES * ICONTINUE: RUN CONTINUATION OPTION FOR EE LINKAGE FILES WHEN ISRESTI=1 * 0 NO RUN CONTINUATION - EFDC WRITES EE_*.OUT FILES AS USUAL * 1 ACTIVATE RUN CONTINUATION - EE LINKAGE OUTPUT WILL BE APPENDED TO THE EXISTING FILES * ISLOG: 1 FOR WRITING LOG FILE EFDC.LOG * IDUM: NOT USED * * * ISDIVEX: 1 FOR WRITING EXTERNAL MODE DIVERGENCE TO SCREEN * ISNEGH: 1 FOR SEARCHING FOR NEGATIVE DEPTHS AND WRITING TO SCREEN * ISMMC: <0 FLAG TO GLOBALLY ACTIVATE WRITING EXTRA MODEL RESULTS LOG FILES * * ISBAL: 1 FOR ACTIVATING MASS, MOMENTUM AND ENERGY BALANCES AND * WRITING RESULTS TO FILE bal.out * IDUM: NOT USED * ISHOW: >0 TO SHOW RUNTIME STATUS ON SCREEN, SEE INSTRUCTIONS FOR FILE SHOW.INP * C2 ISRESTI ISRESTO ISRESTR ISGREGOR ISLOG ISDIVEX ISNEGH ISMMC ISBAL ICONTINUE ISHOW 0 1 0 0 1 0 2 0 0 0 1 ------------------------------------------------------------------------------- C3 EXTERNAL MODE SOLUTION OPTION PARAMETERS AND SWITCHES * * RP: OVER RELAXATION PARAMETER * RSQM: TARGET SQUARE RESIDUAL OF ITERATIVE SOLUTION SCHEME * ITERM: MAXIMUN NUMBER OF ITERATIONS * IRVEC: 0 CONJUGATE GRADIENT SOLUTION - NO SCALING * 9 CONJUGATE GRADIENT SOLUTION - SCALE BY MINIMUM DIAGONAL * 99 CONJUGATE GRADIENT SOLUTION - SCALE TO NORMAL FORM * * * IATMP: 0 DO NOT USE ATMOSPHERIC PRESSURE IN THE CALPUV SOLUTION * 1 USE ATMOSPHERIC PRESSURE IN THE CALPUV SOLUTION IF NASER > 1 * RSQMADJ: NOT USED * DUMMY: * ITERHPM: MAXIMUM ITERATIONS FOR STRONGLY NONLINER DRYING AND WETTING * SCHEME (ISDRY=3 OR OR 4) ITERHPM.LE.4 * IDRYCK: ITERATIONS PER DRYING CHECK (ISDRY.GE.1) 2.LE.IDRYCK.LE.20 * ISDSOLV: 1 TO WRITE DIAGNOSTICS FILES FOR EXTERNAL MODE SOLVER * FILT3TL: FILTER COEFFICIENT FOR 3 TIME LEVEL EXPLICIT ( 0.0625 ) * C3 RP RSQM ITERM IRVEC IATMP RSQMADJ DUMMY ITERHPM IDRYCK ISDSOLV FILT3TL 1.8 1E-09 200 9 0 1E-16 0 4 20 0 .0625 ------------------------------------------------------------------------------- C4 LONGTERM MASS TRANSPORT INTEGRATION ONLY SWITCHES * * ISLTMT: NOT USED * ISSSMMT: 0 WRITES MEAN MASS TRANSPORT TO RESTRAN.OUT AFTER EACH * AVERAGING PERIOD (FOR WASP/ICM/RCA LINKAGE) * 1 WRITES MEAN MASS TRANSPORT TO RESTRAN.OUT AFTER LAST * AVERAGING PERIOD (FOR RESEARCH PURPOSES) * 2 DISABLES MEAN MASS TRANSPORT FIELD CALCULATIONS & RESTRAN.OUT * ISLTMTS: NOT USED * * * * ISIA: NOT USED * * RPIA: NOT USED * RSQMIA: NOT USED * ITRMIA: NOT USED * ISAVEC: NOT USED * C4 ISLTMT ISSSMMT ISLTMTS ISIA RPIA RSQMIA ITRMIA ISAVEC 0 2 0 0 1.8 1E-10 0 0 ------------------------------------------------------------------------------- C5 MOMENTUM ADVEC AND HORIZ DIFF SWITCHES AND MISC SWITCHES * * ISCDMA: 1 FOR CENTRAL DIFFERENCE MOMENTUM ADVECTION (USED FOR 3TL ONLY) * 0 FOR UPWIND DIFFERENCE MOMENTUM ADVECTION (USED FOR 3TL ONLY) * 2 FOR EXPERIMENTAL UPWIND DIFF MOM ADV (FOR RESEARCH PURPOSES) * ISHDMF: 1 TO ACTIVE HORIZONTAL MOMENTUM DIFFUSION * 2 TO ACTIVE HORIZONTAL MOMENTUM DIFFUSION WITH WATER COLUMN DIFFUSION * ISDISP: 1 CALCULATE MEAN HORIZONTAL SHEAR DISPERSION TENSOR OVER LAST MEAN MASS TRANSPORT AVERAGING PERIOD * ISWASP: 4 OR 5 TO WRITE FILES FOR WASP4 OR WASP5 MODEL LINKAGE, 17-WASP7HYDRO, 99 - CE-QUAL-ICM * ISDRY: 0 NO WETTING & DRYING OF SHALLOW AREAS * 1 CONSTANT WETTING DEPTH SPECIFIED BY HWET ON CARD 11 * WITH NONLINEAR ITERATIONS SPECIFIED BY ITERHPM ON CARD C3 * 2 VARIABLE WETTING DEPTH CALCULATED INTERNALLY IN CODE * WITH NONLINEAR ITERATIONS SPECIFIED BY ITERHPM ON CARD C3 * 11 SAME AS 1, WITHOUT NONLINEAR ITERATION * -11 SAME AS 11 BUT WITH CELL MASKING * 99 VARIABLE WETTING & DRYING USING CELL FACES * -99 SAME AS 11 BUT WITH CELL MASKING * ISQQ: 1 TO USE STANDARD TURBULENT INTENSITY ADVECTION SCHEME * 2 RESEARCH TURBULENT INTENSITY ADVECTION SCHEME * ISRLID: 1 TO RUN IN RIGID LID MODE (NO FREE SURFACE) * ISVEG: 1 TO IMPLEMENT VEGETATION RESISTANCE * 2 IMPLEMENT WITH DIAGNOSTICS TO FILE CBOT.LOG * ISVEGL: 1 TO INCLUDE LAMINAR FLOW OPTION IN VEGETATION RESISTANCE * ISITB: 1 FOR IMPLICIT BOTTOM & VEGETATION RESISTANCE IN EXTERNAL MODE * * IHMDSUB: 1 TO USE A SUBSET OF CELLS FOR HMD CALCULATIONS, MAPHMD.INP * IINTPG: 0 ORIGINAL INTERNAL PRESSURE GRADIENT FORMULATION * 1 JACOBIAN FORMULATION * 2 FINITE VOLUME FORMULATION * * C5 ISCDMA ISHDMF ISDISP ISWASP ISDRY ISQQ ISRLID ISVEG ISVEGL ISITB IHMDSUB IINTPG 0 1 0 0 -99 1 0 0 0 0 0 0 ------------------------------------------------------------------------------- C6 DISSOLVED AND SUSPENDED CONSTITUENT TRANSPORT SWITCHES * TURB INTENSITY=0,SAL=1,TEM=2,DYE=3,SFL=4,TOX=5,SED=6,SND=7,CWQ=8 * * ISTRAN: 1 OR GREATER TO ACTIVATE TRANSPORT * ISTOPT: NONZERO FOR TRANSPORT OPTIONS, SEE USERS MANUAL * ISCDCA: 0 FOR STANDARD DONOR CELL UPWIND DIFFERENCE ADVECTION (3TL ONLY) * 1 FOR CENTRAL DIFFERENCE ADVECTION FOR THREE TIME LEVEL STEPS (3TL ONLY) * 2 FOR EXPERIMENTAL UPWIND DIFFERENCE ADVECTION (FOR RESEARCH) (3TL ONLY) * ISADAC: 1 TO ACTIVATE ANTI-NUMERICAL DIFFUSION CORRECTION TO * STANDARD DONOR CELL SCHEME * ISFCT: 1 TO ADD FLUX LIMITING TO ANTI-NUMERICAL DIFFUSION CORRECTION * ISPLIT: 1 TO OPERATOR SPLIT HORIZONTAL AND VERTICAL ADVECTION * (FOR RESEARCH PURPOSES) * ISADAH: 1 TO ACTIVATE ANTI-NUM DIFFUSION CORRECTION TO HORIZONTAL * SPLIT ADVECTION STANDARD DONOR CELL SCHEME (FOR RESEARCH) * ISADAV: 1 TO ACTIVATE ANTI-NUM DIFFUSION CORRECTION TO VERTICAL * SPLIT ADVECTION STANDARD DONOR CELL SCHEME (FOR RESEARCH) * ISCI: 1 TO READ CONCENTRATION FROM FILE restart.inp * ISCO: 1 TO WRITE CONCENTRATION TO FILE restart.out * C6 ISTRAN ISTOPT ISCDCA ISADAC ISFCT ISPLIT ISADAH ISADAV ISCI ISCO 1 1 0 1 1 0 0 0 0 1 !TURB 0 0 0 0 1 1 0 0 0 0 0 !SAL 1 0 0 0 1 1 0 0 0 0 0 !TEM 2 0 0 0 1 1 0 0 0 0 0 !DYE 3 0 0 0 1 1 0 0 0 0 0 !SFL 4 0 0 0 1 1 0 0 0 0 0 !TOX 5 0 0 0 1 1 0 0 0 0 0 !SED 6 0 0 0 1 1 0 0 0 0 0 !SND 7 0 0 0 1 1 0 0 0 0 0 !CWQ 8 ------------------------------------------------------------------------------- C7 TIME-RELATED INTEGER PARAMETERS * * NTC: NUMBER OF REFERENCE TIME PERIODS IN RUN * NTSPTC: NUMBER OF TIME STEPS PER REFERENCE TIME PERIOD * NLTC: NUMBER OF LINEARIZED REFERENCE TIME PERIODS * NLTC: NUMBER OF TRANSITION REF TIME PERIODS TO FULLY NONLINEAR * NTCPP: NUMBER OF REFERENCE TIME PERIODS BETWEEN FULL PRINTED OUTPUT * TO FILE EFDC.OUT * NTSTBC: NUMBER OF TIME STEPS BETWEEN USING A TWO TIME LEVEL TRAPEZOIDAL * CORRECTION TIME STEP, ** MASS BALANCE PRINT INTERVAL ** * NTCNB: NUMBER OF REFERENCE TIME PERIODS WITH NO BUOYANCY FORCING (NOT USED) * NTCVB: NUMBER OF REF TIME PERIODS WITH VARIABLE BUOYANCY FORCING * NTSMMT: NUMBER OF NUMBER OF TIME STEPS TO AVERAGE OVER TO OBTAIN * MASS BALANCE RESIDUALS OR MEAN MASS TRANSPORT VARIABLES (e.g. WASP Linkage) * NFLTMT: USE 1 (FOR RESEARCH PURPOSES) * NDRYSTP: MIN NO. OF TIME STEPS A CELL REMAINS DRY AFTER INTIAL DRYING * -NDRYSTP FOR ISDRY=-99 TO ACTIVATE WASTING WATER IN DRY CELLS * NRAMPUP: NUMBER OF INITIAL LOOPS TO HOLD TIMESTEP CONSTANT FOR DYNNAMIC TIME-STEPPING * NUPSTEP: MINIMUM NUMBER OF INTERATIONS FOR EACH TIME STEP WHEN GROWING DTDYN * C7 NTC NTSPTC NLTC NTTC NTCPP NTSTBC NTCNB NTCVB NTSMMT NFLTMT NDRYSTP NRAMPUP NUPSTEP 31 17280 0 600 10 12 0 518400 0 1 4 1000 2 ------------------------------------------------------------------------------- C8 TIME-RELATED REAL PARAMETERS * * TCON: CONVERSION MULTIPLIER TO CHANGE TBEGIN TO SECONDS * TBEGIN: TIME ORIGIN OF RUN * TREF: REFERENCE TIME PERIOD IN sec (i.e. 44714.16S OR 86400S) * CORIOLIS: CONSTANT CORIOLIS PARAMETER IN 1/sec =2*7.29E-5*SIN(LAT) * ISCORV: 1 TO READ VARIABLE CORIOLIS COEFFICIENT FROM LXLY.INP FILE * ISCCA: WRITE DIAGNOSTICS FOR MAX CORIOLIS-CURV ACCEL TO FILEEFDC.LOG * ISCFL: 1 WRITE DIAGNOSTICS OF MAX THEORETICAL TIME STEP TO CFL.OUT * GT 1 TIME STEP ONLY AT INTERVAL ISCFL FOR ENTIRE RUN * ISCFLM: 1 TO MAP LOCATIONS OF MAX TIME STEPS OVER ENTIRE RUN * DTSSFAC: DYNAMIC TIME STEPPING IF DTSSFAC > 0.0 * DTSSDHDT: DYNAMIC TIME STEPPING RATE OF DEPTH CHANGE FACTOR (USED WHEN > 0) * DTMAX: MAXIMUM TIME STEP FOR DYNAMIC STEPPING (SECONDS) * C8 TCON TBEGIN TREF CORIOLIS ISCORV ISCCA ISCFL ISCFLM DTSSFAC DTSSDHDT DTMAX 86400 181 86400 8.37245E-05 0 1 1 1 0 .3 3600 ------------------------------------------------------------------------------- C9 SPACE-RELATED AND SMOOTHING PARAMETERS * * IC: NUMBER OF CELLS IN I DIRECTION * JC: NUMBER OF CELLS IN J DIRECTION * LC: NUMBER OF ACTIVE CELLS IN HORIZONTAL + 2 * LVC: NUMBER OF VARIABLE SIZE HORIZONTAL CELLS * ISCO: 1 FOR CURVILINEAR-ORTHOGONAL GRID (LVC=LC-2) * NDM: NUMBER OF DOMAINS FOR HORIZONTAL DOMAIN DECOMPOSITION * ( NDM=1, FOR MODEL EXECUTION ON A SINGLE PROCESSOR SYSTEM OR * NDM=MM*NCPUS, WHERE MM IS AN INTEGER AND NCPUS IS THE NUMBER * OF AVAILABLE CPU'S FOR MODEL EXECUTION ON A PARALLEL MULTIPLE PROCESSOR SYSTEM ) * LDM: NUMBER OF WATER CELLS PER DOMAIN (LDM=(LC-2)/NDM, FOR MULTIPE VECTOR PROCESSORS, * LDM MUST BE AN INTEGER MULTIPLE OF THE VECTOR LENGTH OR * STRIDE NVEC THUS CONSTRAINING LC-2 TO BE AN INTEGER MULTIPLE OF NVEC ) * ISMASK: 1 FOR MASKING WATER CELL TO LAND OR ADDING THIN BARRIERS * USING INFORMATION IN FILE MASK.INP * ISCONNECT: 1 FOR USER DEFINED N-S CONNECTION OF CELLS USING INFO IN FILE MAPPGNS.INP * 2 FOR USER DEFINED E-W CONNECTION OF CELLS USING INFO IN FILE MAPPGEW.INP * 3 FOR BOTH E-W AND N-S CONNECTIONS * NSHMAX: NUMBER OF DEPTH SMOOTHING PASSES * NSBMAX: NUMBER OF INITIAL SALINITY FIELD SMOOTHING PASSES * WSMH: DEPTH SMOOTHING WEIGHT * WSMB: SALINITY SMOOTHING WEIGHT * * * C9 IC JC LC LVC ISCO NDM LDM ISMASK CONNECT NSHMAX NSBMAX WSMH WSMB 137 173 12544 12542 1 1 12542 1 0 0 0 0.06250 0.06250 ------------------------------------------------------------------------------- C9A VERTICAL SPACE-RELATED PARAMETERS * KC: NUMBER OF VERTICAL LAYERS * * KSIG: NOT USED * ISETGVC: NOT USED * * * SELVREF: NOT USED * BELVREF: NOT USED * ISGVCCK: NOT USED * * C9A KC KSIG ISETGVC SELVREF BELVREF ISGVCCK 5 1 0 0.000 -1.000 0 ------------------------------------------------------------------------------- C10 LAYER THICKNESS IN VERTICAL * * K: LAYER NUMBER, K=1,KC * DZC: DIMENSIONLESS LAYER THICKNESS (THICKNESSES MUST SUM TO 1.0) * * * C10 K DZC 1 0.2000000 2 0.2000000 3 0.2000000 4 0.2000000 5 0.2000000 ------------------------------------------------------------------------------- C11 GRID, ROUGHNESS AND DEPTH PARAMETERS * * DX: CARTESIAN CELL LENGTH IN X OR I DIRECTION * DY: CARTESION CELL LENGTH IN Y OR J DIRECTION * DXYCVT: MULTIPLY DX AND DY BY TO OBTAIN METERS * IMDXDY: GREATER THAN 0 TO READ MODDXDY.INP FILE * ZBRADJ: LOG BDRY LAYER CONST OR VARIABLE ROUGH HEIGHT ADJ IN METERS * ZBRCVRT: LOG BDRY LAYER VARIABLE ROUGHNESS HEIGHT CONVERT TO METERS * HMIN: MINIMUM DEPTH OF INPUTS DEPTHS IN METERS * HADJ: ADJUSTMENT TO DEPTH FIELD IN METERS * HCVRT: CONVERTS INPUT DEPTH FIELD TO METERS * HDRY: DEPTH AT WHICH CELL OR FLOW FACE BECOMES DRY * HWET: DEPTH AT WHICH WITHDRAWALS FROM CELL ARE TURNED OFF * BELADJ: ADJUSTMENT TO BOTTOM BED ELEVATION FIELD IN METERS * BELCVRT: CONVERTS INPUT BOTTOM BED ELEVATION FIELD TO METERS * C11 DX DY DXYCVT IMD ZBRADJ ZBRCVRT HMIN HADJ HCVRT HDRY HWET BELADJ BELCVRT 1 1 1 0 .01 1 .2 0 1 .4 .41 0 1 ------------------------------------------------------------------------------- C11A TWO-LAYER MOMENTUM FLUX AND CURVATURE ACCELERATION CORRECTION FACTORS * (ONLY USED FOR 2 TIME LEVEL SOLUTION & ISDRY=0 PMC-Check to see if still true) * ICK2COR: 0 NO CORRECTION * ICK2COR: 1 CORRECTION USING CK2UUC,CK2VVC,CK2UVC FOR CURVATURE * ICK2COR: 2 CORRECTION USING CK2FCX,CK2FCY FOR CURVATURE * CK2UUM: CORRECTION FOR UU MOMENTUM FLUX * CK2VVM: CORRECTION FOR UU MOMENTUM FLUX * CK2UVM: CORRECTION FOR UU MOMENTUM FLUX * CK2UUC: CORRECTION FOR UU CURVATURE ACCELERATION (NOT ACTIVE) * CK2VVC: CORRECTION FOR VV CURVATURE ACCELERATION (NOT ACTIVE) * CK2UVC: CORRECTION FOR UV CURVATURE ACCELERATION (NOT ACTIVE) * CK2FCX: CORRECTION FOR X EQUATION CURVATURE ACCELERATION * CK2FCY: CORRECTION FOR Y EQUATION CURVATURE ACCELERATION * C11A ICK2COR CK2UUM CK2VVM CK2UVM CK2UUC CK2VVC CK2UVC CK2FCX CK2FCY 0 .0825 .0825 .0825 .0825 .0825 .0825 .0825 .0825 ------------------------------------------------------------------------------- C11B CORNER CELL BOTTOM STRESS CORRECTION OPTIONS (2TL ONLY) * * ISCORTBC: 1 TO CORRECT BED STRESS AVERAGING TO CELL CENTERS IN CORNERS * 2 TO USE SPATIALLY VARYING CORRECTION FOR CELLS IN CORNERC.INP * ISCORTBCD: 1 WRITE DIAGNOSTICS EVERY NSPTC TIME STEPS (NOT USED) * FSCORTBC: CORRECTION FACTOR, 0.0 GE FSCORTBC LE 1.0 * 1.0 = NO CORRECTION, 0.0 = MAXIMUM CORRECTION, 0.5 SUGGESTED * C11B ISCORTBC ISCORTBCD FSCORTBC 0 1 .414 ------------------------------------------------------------------------------- C12 TURBULENT DIFFUSION PARAMETERS * * AHO: CONSTANT HORIZONTAL MOMENTUM AND MASS DIFFUSIVITY m*m/s * AHD: DIMESIONLESS HORIZONTAL MOMENTUM DIFFUSIVITY (ONLY FOR ISHDMF>0) * AVO: BACKGROUND, CONSTANT OR EDDY (KINEMATIC) VISCOSITY m*m/s * ABO: BACKGROUND, CONSTANT OR MOLECULAR DIFFUSIVITY m*m/s * AVMX: MAXIMUM KINEMATIC EDDY VISCOSITY m*m/s (DS-INTL) * ABMX: MAXIMUM EDDY DIFFUSIVITY m*m/s (DS-INTL) * VISMUD: CONSTANT FLUID MUD VISCOSITY m*m/s * AVCON: EQUALS ZERO FOR CONSTANT VERTICAL VISCOSITY AND DIFFUSIVITY * WHICH ARE SET EQUAL TO AVO AND ABO, OTHERWISE SET TO 1.0 * ZBRWALL: SIDE WALL LOG LAW ROUGHNESS HEIGHT. USED WHEN HORIZONTAL * MOMENTUM DIFFUSION IS ACTIVE AND AHO OR AHD ARE NONZERO * C12 AHO AHD AVO ABO AVMX ABMX VISMUD AVCON ZBRWALL 2 .2 .00001 .0006 .00001 .0006 .000001 1 0 ------------------------------------------------------------------------------- C12A TURBULENCE CLOSURE OPTIONS * * ISSTAB: 0 FOR GALPERIN et al. STABILITY FUNCTIONS IN CALAVBOLD (ISQQ=1) * 1 FOR GALPERIN et al. STABILITY FUNCTIONS (ISQQ=1) * 2 FOR KANTHA AND CLAYSON (1994) STABILITY FUNCTIONS (ISQQ=1) * 3 FOR KANTAH (2003) STABILITY FUNCTIONS (ISQQ=1) * (NOTE: OPTION SELECTED HERE OVERRIDES ISTOPT(0) ON C6) * 4 VINCON-LEITE, ET.AL. (2014) APPROACH (ISQQ=1) * ISSQL: 0 SETS QQ AND QQL STABILITY FUNCTIONS PROPORTIONAL TO * MOMENTUM STABILITY FUNCTIONS (EXCEPT FOR ISSTAB=3) * 1 SETS QQ AND QQL STABILITY FUNCTIONS TO CONSTANTS * (FOR ISSTAB = 0,1,2) THIS OPTION NOT ACTIVE * ISAVBMX: SET TO 1 TO ACTIVATE MAX VISCOSITY AND DIFFUSIVITY OF AVMX AND ABMX * ISFAVB: SET TO 1 OR 2 TO AVG OR SQRT FILTER AVO AND AVB * ISINWV: SET TO 2 TO WRITE EE_ARRAYS.OUT * ISLLIM: 0 FOR NO LENGTH SCALE AND RIQMAX LIMITATIONS * 1 LIMIT RIQMAX IN STABILITY FUNCTION ONLY * 2 DIRECTLY LIMIT LENGTH SCALE AND LIMIT RIQMAX IN STABILITY FUNCTION * IFPROX: 0 FOR NO WALL PROXIMITY FUNCTION * 1 FOR PARABOLIC OVER DEPTH WALL PROXIMITY FUNCTION * 2 FOR OPEN CHANNEL WALL PROXIMITY FUNCTION * XYRATIO: LARGE ASPECT RATIOS, IF XYRATIO>1.1 AND >DX:DY THEN ZERO XY TERMS FMDUY AND FMDVX (EFDC+) * BC_EDGEFACTOR: BOUNDARY CELLS MOMENTUM CORRECTION FACTOR (0 TO 1) * C12A ISSTAB ISSQL ISAVBMX ISFAVB ISINWV ISLLIM IFPROX XYRATIO BC_EDGEFACTOR 1 0 0 2 1 2 0 0 0 ------------------------------------------------------------------------------- C13 TURBULENCE CLOSURE PARAMETERS * * VKC: VON KARMAN CONSTANT * CTURB1: TURBULENT CONSTANT (UNIVERSAL) * CTURB2: TURBULENT CONSTANT (UNIVERSAL) * CTE1: TURBULENT CONSTANT (UNIVERSAL) * CTE2: TURBULENT CONSTANT (UNIVERSAL) * CTE3: TURBULENT CONSTANT (UNIVERSAL) * CTE4: TURBULENCE CONSTANT E4 (SOMETIMES CALL E3) WALL FUNCTION IN Q*Q*L EQUATION * CTE5: TURBULENCE CONSTANT E5 - 2ND OPEN CHANNEL WALL FUNCTION IN Q*Q*L EQUATION * RIQMAX: MAXIMUM TURBULENT INTENSITY RICHARDSON NUMBER FOR STABLE CONDITIONS * QQMIN: MINIMUM TURBULENT INTENSITY SQUARED * QQLMIN: MINIMUM TURBULENT INTENSITY SQUARED * LENGTH-SCALE * DMLMIN: MINIMUM DIMENSIONLESS LENGTH SCALE * C13 VKC CTURB1 CTURB2 CTE1 CTE2 CTE3 CTE4 CTE5 RIQMAX QQMIN QQLMIN DMLMIN .4 16.6 10.1 1.8 1 1.8 1.33 .25 .28 1E-08 1E-12 .0001 ------------------------------------------------------------------------------- C14 TIDAL & ATMOSPHERIC FORCING, GROUND WATER AND SUBGRID CHANNEL PARAMETERS * * MTIDE: NUMBER OF PERIOD (TIDAL) FORCING CONSTITUENTS * NWSER: NUMBER OF WIND TIME SERIES (0 SETS WIND TO ZERO) * NASER: NUMBER OF ATMOSPHERIC CONDITION TIME SERIES (0 SETS ALL ZERO) * ISGWIT: 0 DISABLE GROUND WATER * 1 TO ACTIVATE SOIL MOISTURE BALANCE WITH DRYING AND WETTING * 2 TO ACTIVATE GROUNDWATER INTERACTION WITH BED AND WATER COLUMN (GWMAP & GWSER) * 3 TO ZONED TEMPORALLY CONSTANT SEEPAGE (GWSEEP & GWMAP) * ISCHAN: >0 ACTIVATE SUBGRID CHANNEL MODEL AND READ MODCHAN.INP * ISWAVE: 1-FOR BOUNDARY LAYER IMPACTS ONLY (WAVEBL.INP), * 2-FOR BOUNDARY LAYER & CURRENT IMPACTS (WVnnn.INP) * 3-FOR INTERNALLY COMPUTED WIND WAVE BOUNDARY LAYER IMPACTS (DSI) * 4-FOR INTERNALLY COMPUTED WIND WAVE BOUNDARY LAYER AND CURRENT IMPACTS (DSI) * ITIDASM: 1 FOR TIDAL ELEVATION ASSIMILATION (NOT ACTIVE) * ISPERC: 1 TO PERCOLATE OR ELIMINATE EXCESS WATER IN DRY CELLS * ISBODYF: TO INCLUDE EXTERNAL MODE BODY FORCES FROM FBODY.INP * 1 FOR UNIFORM OVER DEPTH, 2 FOR SURFACE LAYER ONLY * ISPNHYDS: 1 FOR QUASI-NONHYDROSTATIC OPTION * C14 MTIDE NWSER NASER ISGWIT ISCHAN ISWAVE ITIDASM ISPERC ISBODYF ISPNHYDS 4 0 0 0 0 0 0 0 0 0 ------------------------------------------------------------------------------- C15 PERIODIC FORCING (TIDAL) CONSTITUENT SYMBOLS AND PERIODS * * SYMBOL: FORCING SYMBOL (CHARACTER VARIABLE) FOR TIDES, THE NOS SYMBOL * PERIOD: FORCING PERIOD IN SECONDS * C15 SYMBOL PERIOD 'M2' 44714.16 'S2' 43200 'K1' 86164.09 'O1' 92949.63 ------------------------------------------------------------------------------- C16 SURFACE ELEVATION OR PRESSURE BOUNDARY CONDITION PARAMETERS * * NPBS: NUMBER OF SURFACE ELEVATION OR PRESSURE BOUNDARY CONDITIONS * CELLS ON SOUTH OPEN BOUNDARIES * NPBW: NUMBER OF SURFACE ELEVATION OR PRESSURE BOUNDARY CONDITIONS * CELLS ON WEST OPEN BOUNDARIES * NPBE: NUMBER OF SURFACE ELEVATION OR PRESSURE BOUNDARY CONDITIONS * CELLS ON EAST OPEN BOUNDARIES * NPBN: NUMBER OF SURFACE ELEVATION OR PRESSURE BOUNDARY CONDITIONS * CELLS ON NORTH OPEN BOUNDARIES * NPFOR: NUMBER OF HARMONIC FORCINGS * NPFORT: FORCING TYPE, 0=CONSTANT, 1=LINEAR, 2= QUADRATIC VARIATION * NPSER: NUMBER OF TIME SERIES FORCINGS * PDGINIT: ADD THIS CONSTANT ADJUSTMENT GLOBALLY TO THE SURFACE ELEVATION * C16 NPBS NPBW NPBE NPBN NPFOR NPFORT NPSER PDGINIT 131 89 37 0 257 0 0 0 ------------------------------------------------------------------------------- C17 PERIODIC FORCING (TIDAL) SURF ELEV OR PRESSURE BOUNDARY COND. FORCINGS * * NPFOR: FORCING NUMBER * SYMBOL: FORCING SYMBOL (FOR REFERENCE HERE ONLY) * AMPLITUDE: AMPLITUDE IN M (PRESSURE DIVIDED BY RHO*G), NPFORT=0 * COSINE AMPLITUDE IN M, NPFORT.GE.1 * PHASE: FORCING PHASE RELATIVE TO TBEGIN IN SECONDS, NPFORT=0 * SINE AMPLITUDE IN M, NPFORT.GE.1 * NOTE: FOR NPFORT=0 SINGLE AMPLITUDE AND PHASE ARE READ, FOR NPFORT=1 * CONST AND LINEAR COS AND SIN AMPS ARE READ FOR EACH FORCING, FOR * NPFORT=2, CONST, LINEAR, QUAD COS AND SIN AMPS ARE READ FOR EACH * FOR EACH FORCING * C17 NPFOR SYMBOL AMPLITUDE PHASE 1 'M2' .46666 30374.58 1 'S2' .21908 33911.76 1 'K1' .04999 41934.63 1 'O1' .03629 44893.64 2 'M2' .4624 30370.48 2 'S2' .21716 33910.92 2 'K1' .04902 42020.55 2 'O1' .03554 44987.63 3 'M2' .45789 30367.37 3 'S2' .21509 33912 3 'K1' .04792 42126.34 3 'O1' .03474 45105.62 4 'M2' .45315 30363.89 4 'S2' .21296 33912.72 4 'K1' .04682 42234.77 4 'O1' .03383 45226.19 5 'M2' .4482 30356.44 5 'S2' .21073 33909.84 5 'K1' .04562 42318.78 5 'O1' .03289 45317.85 6 'M2' .44528 30348.87 6 'S2' .20939 33905.88 6 'K1' .04488 42347.74 6 'O1' .03231 45345.22 7 'M2' .44261 30341.17 7 'S2' .20816 33901.08 7 'K1' .04422 42361.14 7 'O1' .03174 45353.22 8 'M2' .44056 30339.06 8 'S2' .20726 33900.72 8 'K1' .04367 42411.88 8 'O1' .03134 45412.35 9 'M2' .43786 30339.55 9 'S2' .20603 33903.48 9 'K1' .04301 42505.22 9 'O1' .03082 45521.82 10 'M2' .4355 30332.1 10 'S2' .20495 33898.92 10 'K1' .04243 42520.55 10 'O1' .03033 45532.41 11 'M2' .43307 30329.99 11 'S2' .20386 33899.04 11 'K1' .04184 42583.73 11 'O1' .02984 45608.06 12 'M2' .43113 30316.08 12 'S2' .20295 33888.12 12 'K1' .04136 42523.66 12 'O1' .02947 45524.92 13 'M2' .42853 30311.73 13 'S2' .20176 33886.56 13 'K1' .04071 42574.16 13 'O1' .02893 45584.82 14 'M2' .42586 30306.64 14 'S2' .20055 33883.8 14 'K1' .04004 42620.59 14 'O1' .02842 45639.56 15 'M2' .4233 30302.16 15 'S2' .19938 33881.64 15 'K1' .03941 42671.33 15 'O1' .02792 45702.05 16 'M2' .42146 30296.45 16 'S2' .19856 33878.16 16 'K1' .03896 42681.62 16 'O1' .02754 45711.86 17 'M2' .42035 30292.35 17 'S2' .19805 33875.28 17 'K1' .03868 42681.62 17 'O1' .02732 45712.11 18 'M2' .41864 30288.13 18 'S2' .19727 33872.64 18 'K1' .03824 42704.36 18 'O1' .02695 45735.35 19 'M2' .41773 30287.51 19 'S2' .19685 33873 19 'K1' .03803 42728.53 19 'O1' .02679 45769.95 20 'M2' .4167 30278.69 20 'S2' .19637 33866.16 20 'K1' .03778 42679.71 20 'O1' .02659 45705.92 21 'M2' .41517 30275.96 21 'S2' .19566 33864.84 21 'K1' .03741 42706.75 21 'O1' .02629 45738.71 22 'M2' .41347 30274.34 22 'S2' .19488 33864.72 22 'K1' .03696 42746 22 'O1' .02593 45793.96 23 'M2' .41269 30271.98 23 'S2' .19452 33863.28 23 'K1' .03676 42749.36 23 'O1' .02577 45799.38 24 'M2' .41164 30263.17 24 'S2' .19405 33855.96 24 'K1' .03651 42706.27 24 'O1' .02557 45737.41 25 'M2' .41001 30260.43 25 'S2' .1933 33854.88 25 'K1' .03611 42740.98 25 'O1' .02523 45782.34 26 'M2' .40849 30259.94 26 'S2' .19262 33855.6 26 'K1' .03573 42796.03 26 'O1' .02493 45850.5 27 'M2' .4076 30251.86 27 'S2' .19222 33849.12 27 'K1' .03547 42751.75 27 'O1' .02474 45786.99 28 'M2' .40607 30249.63 28 'S2' .19152 33848.4 28 'K1' .03513 42786.46 28 'O1' .02445 45836.56 29 'M2' .40488 30245.9 29 'S2' .19098 33846 29 'K1' .03484 42793.88 29 'O1' .02421 45842.76 30 'M2' .40375 30237.46 30 'S2' .19048 33839.52 30 'K1' .03455 42753.67 30 'O1' .02396 45778.21 31 'M2' .40194 30238.7 31 'S2' .18965 33841.56 31 'K1' .03412 42836.24 31 'O1' .02362 45904.46 32 'M2' .40091 30234.97 32 'S2' .18919 33839.52 32 'K1' .03386 42838.87 32 'O1' .02342 45900.85 33 'M2' .39945 30226.03 33 'S2' .18853 33833.16 33 'K1' .03348 42805.13 33 'O1' .02311 45853.86 34 'M2' .3984 30223.05 34 'S2' .1881 33831.6 34 'K1' .0332 42813.98 34 'O1' .0229 45883.55 35 'M2' .39703 30215.72 35 'S2' .1874 33826.2 35 'K1' .03286 42796.03 35 'O1' .02261 45836.3 36 'M2' .39585 30211.74 36 'S2' .18686 33823.8 36 'K1' .03256 42802.73 36 'O1' .02237 45842.5 37 'M2' .39511 30205.28 37 'S2' .18654 33818.88 37 'K1' .03235 42765.15 37 'O1' .02222 45795 38 'M2' .39415 30205.04 38 'S2' .18608 33819.72 38 'K1' .03213 42802.25 38 'O1' .02203 45841.21 39 'M2' .39331 30201.68 39 'S2' .18567 33817.56 39 'K1' .03192 42800.1 39 'O1' .02185 45835.53 40 'M2' .39227 30199.82 40 'S2' .1852 33816.96 40 'K1' .03166 42822.84 40 'O1' .02164 45863.16 41 'M2' .39153 30193.86 41 'S2' .18488 33812.64 41 'K1' .03146 42791 41 'O1' .02149 45815.39 42 'M2' .39035 30192.24 42 'S2' .18435 33812.16 42 'K1' .03117 42817.33 42 'O1' .02125 45858.51 43 'M2' .38947 30189.51 43 'S2' .18393 33810.12 43 'K1' .03096 42815.18 43 'O1' .02106 45870.9 44 'M2' .38871 30186.9 44 'S2' .1836 33808.8 44 'K1' .03077 42820.68 44 'O1' .02091 45870.13 45 'M2' .38793 30181.56 45 'S2' .18325 33805.2 45 'K1' .03056 42802.25 45 'O1' .02075 45830.11 46 'M2' .38714 30176.72 46 'S2' .18289 33801.96 46 'K1' .03035 42782.14 46 'O1' .02059 45802.48 47 'M2' .38594 30171.75 47 'S2' .18236 33799.2 47 'K1' .03004 42765.15 47 'O1' .02034 45811 48 'M2' .38556 30169.39 48 'S2' .18218 33797.64 48 'K1' .02995 42755.1 48 'O1' .02026 45796.54 49 'M2' .38419 30168.15 49 'S2' .18153 33797.52 49 'K1' .02962 42814.7 49 'O1' .01999 45830.11 50 'M2' .38354 30164.29 50 'S2' .18124 33794.76 50 'K1' .02945 42798.9 50 'O1' .01986 45806.87 51 'M2' .3824 30160.57 51 'S2' .18075 33792.72 51 'K1' .02916 42797.47 51 'O1' .01962 45820.04 52 'M2' .38175 30156.84 52 'S2' .18045 33790.2 52 'K1' .02899 42780.95 52 'O1' .01948 45797.57 53 'M2' .38036 30156.1 53 'S2' .17975 33790.92 53 'K1' .02866 42839.11 53 'O1' .01917 45838.63 54 'M2' .37998 30153.74 54 'S2' .17958 33789.24 54 'K1' .02856 42829.06 54 'O1' .01909 45823.65 55 'M2' .3789 30139.7 55 'S2' .17914 33778.32 55 'K1' .02826 42714.17 55 'O1' .01887 45688.1 56 'M2' .37825 30135.98 56 'S2' .17884 33775.8 56 'K1' .02809 42697.18 56 'O1' .01873 45667.96 57 'M2' .37686 30136.72 57 'S2' .17815 33778.08 57 'K1' .02776 42736.19 57 'O1' .01846 45747.48 58 'M2' .37648 30134.49 58 'S2' .17797 33776.4 58 'K1' .02766 42726.86 58 'O1' .01838 45732.77 59 'M2' .37533 30129.02 59 'S2' .17748 33772.92 59 'K1' .02736 42740.5 59 'O1' .01815 45723.73 60 'M2' .37415 30125.54 60 'S2' .17696 33771.36 60 'K1' .02706 42746.96 60 'O1' .01791 45748.26 61 'M2' .37335 30120.2 61 'S2' .17664 33767.64 61 'K1' .02685 42691.68 61 'O1' .01774 45723.47 62 'M2' .37244 30119.83 62 'S2' .17619 33768.12 62 'K1' .02664 42754.14 62 'O1' .01757 45759.62 63 'M2' .37183 30108.28 63 'S2' .17588 33758.64 63 'K1' .02648 42656.97 63 'O1' .01744 45606 64 'M2' .37063 30105.05 64 'S2' .17535 33757.2 64 'K1' .02618 42676.12 64 'O1' .01721 45635.17 65 'M2' .36984 30098.72 65 'S2' .17503 33752.76 65 'K1' .02596 42623.94 65 'O1' .01704 45603.93 66 'M2' .36893 30099.46 66 'S2' .17457 33754.32 66 'K1' .02577 42682.34 66 'O1' .01687 45652.99 67 'M2' .36811 30096.48 67 'S2' .17417 33752.64 67 'K1' .02558 42690.24 67 'O1' .01671 45642.66 68 'M2' .36709 30095.36 68 'S2' .1737 33752.64 68 'K1' .02533 42725.66 68 'O1' .01651 45684.23 69 'M2' .36634 30078.1 69 'S2' .17336 33737.28 69 'K1' .02507 42577.03 69 'O1' .01634 45466.31 70 'M2' .36542 30079.34 70 'S2' .17294 33740.16 70 'K1' .02488 42617.48 70 'O1' .01618 45539.38 71 'M2' .36422 30081.33 71 'S2' .17242 33744.36 71 'K1' .02462 42669.42 71 'O1' .01598 45638.79 72 'M2' .36357 30075.74 72 'S2' .1721 33739.68 72 'K1' .02445 42645.48 72 'O1' .01584 45587.66 73 'M2' .36241 30071.64 73 'S2' .17157 33736.92 73 'K1' .02418 42661.04 73 'O1' .01561 45599.28 74 'M2' .36187 30059.34 74 'S2' .1713 33726.48 74 'K1' .02402 42545.91 74 'O1' .01549 45419.06 75 'M2' .3607 30060.83 75 'S2' .1708 33729.84 75 'K1' .02379 42590.91 75 'O1' .01529 45530.6 76 'M2' .35964 30057.23 76 'S2' .17028 33727.56 76 'K1' .02352 42602.16 76 'O1' .01506 45530.86 77 'M2' .3589 30051.89 77 'S2' .16992 33723.48 77 'K1' .02333 42577.27 77 'O1' .01491 45481.55 78 'M2' .35782 30042.45 78 'S2' .16941 33716.4 78 'K1' .02307 42518.63 78 'O1' .01468 45386.27 79 'M2' .35717 30039.72 79 'S2' .16911 33714.84 79 'K1' .02292 42519.11 79 'O1' .01454 45383.95 80 'M2' .35613 30036.74 80 'S2' .16864 33713.64 80 'K1' .02268 42515.76 80 'O1' .01435 45395.57 81 'M2' .35539 30031.89 81 'S2' .16829 33710.16 81 'K1' .0225 42481.29 81 'O1' .01421 45349.61 82 'M2' .35429 30022.45 82 'S2' .16777 33702.84 82 'K1' .02223 42422.41 82 'O1' .01399 45237.81 83 'M2' .35337 30022.58 83 'S2' .16735 33703.44 83 'K1' .022 42482.96 83 'O1' .0138 45283 84 'M2' .35226 30009.79 84 'S2' .16685 33693.96 84 'K1' .02179 42327.63 84 'O1' .01362 45130.66 85 'M2' .35082 30003.1 85 'S2' .16617 33689.88 85 'K1' .02144 42303.7 85 'O1' .01335 45083.41 86 'M2' .34957 30004.32 86 'S2' .16558 33692.64 86 'K1' .02114 42375.74 86 'O1' .0131 45177.65 87 'M2' .34799 29995.5 87 'S2' .16487 33686.52 87 'K1' .02083 42317.1 87 'O1' .01279 45108.2 88 'M2' .3467 29988.3 88 'S2' .1643 33682.8 88 'K1' .0205 42232.38 88 'O1' .0125 45067.66 89 'M2' .34535 29980.1 89 'S2' .16363 33676.2 89 'K1' .02023 42221.36 89 'O1' .01228 44953.8 90 'M2' .34379 29971.41 90 'S2' .16291 33670.92 90 'K1' .0199 42152.91 90 'O1' .01195 44881.76 91 'M2' .34306 29954.64 91 'S2' .16253 33656.52 91 'K1' .01972 41962.39 91 'O1' .01183 44550.76 92 'M2' .3417 29944.82 92 'S2' .16185 33649.2 92 'K1' .01941 41889.63 92 'O1' .01159 44388.61 93 'M2' .34029 29938.99 93 'S2' .16123 33646.56 93 'K1' .01911 41866.89 93 'O1' .01132 44364.08 94 'M2' .33858 29932.9 94 'S2' .16043 33643.44 94 'K1' .01874 41849.9 94 'O1' .01099 44327.42 95 'M2' .33718 29926.69 95 'S2' .15976 33640.32 95 'K1' .01844 41823.81 95 'O1' .01074 44261.84 96 'M2' .33596 29919.61 96 'S2' .1592 33636 96 'K1' .01817 41775.22 96 'O1' .01051 44169.15 97 'M2' .33458 29910.67 97 'S2' .15858 33629.76 97 'K1' .01786 41700.79 97 'O1' .01026 44042.89 98 'M2' .33317 29906.2 98 'S2' .15792 33629.52 98 'K1' .01755 41696.72 98 'O1' .01001 44007 99 'M2' .33186 29895.02 99 'S2' .15731 33620.28 99 'K1' .01728 41597.39 99 'O1' .00977 43819.04 100 'M2' .33048 29888.81 100 'S2' .15667 33618 100 'K1' .01701 41567.95 100 'O1' .00953 43756.04 101 'M2' .3296 29868.81 101 'S2' .15622 33601.08 101 'K1' .01682 41306.11 101 'O1' .00938 43269.35 102 'M2' .3281 29862.97 102 'S2' .15552 33597.48 102 'K1' .01647 41291.03 102 'O1' .00908 43172.78 103 'M2' .32665 29857.63 103 'S2' .15485 33596.28 103 'K1' .01618 41269.97 103 'O1' .00885 43137.15 104 'M2' .32516 29846.46 104 'S2' .1541 33590.16 104 'K1' .01585 41170.64 104 'O1' .00855 42863.46 105 'M2' .32402 29841.61 105 'S2' .15361 33587.28 105 'K1' .01562 41146.23 105 'O1' .00838 42822.15 106 'M2' .32266 29825.46 106 'S2' .15297 33575.4 106 'K1' .01535 40948.29 106 'O1' .00818 42432.8 107 'M2' .32153 29820.74 107 'S2' .15243 33573.96 107 'K1' .01509 40923.16 107 'O1' .00798 42319.97 108 'M2' .32006 29809.57 108 'S2' .15177 33566.28 108 'K1' .01481 40816.41 108 'O1' .00774 42087.85 109 'M2' .31859 29803.35 109 'S2' .15109 33564.6 109 'K1' .01447 40797.74 109 'O1' .00746 41967.28 110 'M2' .31738 29784.97 110 'S2' .15054 33549.36 110 'K1' .01428 40531.11 110 'O1' .00731 41415.52 111 'M2' .31618 29778.02 111 'S2' .14999 33545.52 111 'K1' .01405 40472.95 111 'O1' .00712 41241.5 112 'M2' .31482 29771.56 112 'S2' .14935 33542.88 112 'K1' .01377 40427.95 112 'O1' .0069 41065.66 113 'M2' .31349 29761 113 'S2' .14873 33535.56 113 'K1' .01349 40297.27 113 'O1' .00668 40758.93 114 'M2' .31223 29746.84 114 'S2' .14815 33526.2 114 'K1' .01325 40106.51 114 'O1' .00652 40275.08 115 'M2' .31036 29737.78 115 'S2' .14728 33521.16 115 'K1' .01285 40026.57 115 'O1' .00615 40009.91 116 'M2' .30855 29730.82 116 'S2' .14646 33520.2 116 'K1' .01251 39977.99 116 'O1' .00591 39698.79 117 'M2' .30596 29705.6 117 'S2' .14525 33503.04 117 'K1' .01203 39627.82 117 'O1' .00555 38714.55 118 'M2' .30334 29681.01 118 'S2' .14403 33487.56 118 'K1' .01154 39267.61 118 'O1' .00526 37618.27 119 'M2' .30075 29655.18 119 'S2' .14281 33470.64 119 'K1' .01109 38836.31 119 'O1' .00498 36363.71 120 'M2' .29825 29640.64 120 'S2' .14165 33462.84 120 'K1' .01062 38583.32 120 'O1' .0046 35370.69 121 'M2' .29531 29618.78 121 'S2' .1403 33448.92 121 'K1' .01009 38206.83 121 'O1' .00432 33823.34 122 'M2' .29251 29591.46 122 'S2' .139 33432.72 122 'K1' .00964 37627.38 122 'O1' .00418 32085.96 123 'M2' .29012 29566.87 123 'S2' .13786 33418.68 123 'K1' .00925 37048.16 123 'O1' .0041 30344.96 124 'M2' .28613 29531.72 124 'S2' .13596 33395.4 124 'K1' .00864 36170.97 124 'O1' .00399 27658.2 125 'M2' .28081 29485.14 125 'S2' .13349 33366.96 125 'K1' .00789 34869.89 125 'O1' .00405 24025.41 126 'M2' .27588 29434.58 126 'S2' .13116 33334.68 126 'K1' .00727 33326.84 126 'O1' .00435 20826.66 127 'M2' .27094 29385.28 127 'S2' .12882 33303.12 127 'K1' .00678 31667.7 127 'O1' .00477 18371.75 128 'M2' .26604 29321.19 128 'S2' .12654 33258.72 128 'K1' .00643 29432.46 128 'O1' .00545 16093.71 129 'M2' .26102 29278.34 129 'S2' .12411 33235.2 129 'K1' .00616 27555.76 129 'O1' .00598 14490.85 130 'M2' .25616 29228.28 130 'S2' .12182 33204.6 130 'K1' .006 25401.65 130 'O1' .00662 13057.87 131 'M2' .25134 29177.98 131 'S2' .11956 33175.44 131 'K1' .00597 23253.77 131 'O1' .00733 11974.75 132 'M2' .46996 30323.03 132 'S2' .22051 33863.64 132 'K1' .05064 41415.73 132 'O1' .03686 44246.87 133 'M2' .46902 30301.67 133 'S2' .22004 33844.92 133 'K1' .0504 41261.36 133 'O1' .03669 44049.09 134 'M2' .46869 30273.72 134 'S2' .21984 33819.48 134 'K1' .05031 41036.61 134 'O1' .03662 43765.08 135 'M2' .46849 30249.38 135 'S2' .21969 33798.48 135 'K1' .0502 40848.72 135 'O1' .0366 43525.47 136 'M2' .46766 30228.01 136 'S2' .21927 33780.36 136 'K1' .04999 40700.1 136 'O1' .03645 43336.48 137 'M2' .46739 30207.02 137 'S2' .2191 33761.88 137 'K1' .04992 40542.6 137 'O1' .03644 43136.38 138 'M2' .46732 30183.8 138 'S2' .21897 33742.2 138 'K1' .04987 40372.91 138 'O1' .0364 42920.79 139 'M2' .46685 30167.28 139 'S2' .21873 33728.4 139 'K1' .04975 40257.06 139 'O1' .03634 42774.65 140 'M2' .46676 30159.95 140 'S2' .2187 33722.04 140 'K1' .0497 40214.22 140 'O1' .03633 42724.82 141 'M2' .46668 30149.02 141 'S2' .21866 33712.92 141 'K1' .04964 40148.64 141 'O1' .03632 42647.1 142 'M2' .46648 30141.57 142 'S2' .21855 33706.68 142 'K1' .04955 40110.82 142 'O1' .03627 42604.24 143 'M2' .46658 30132 143 'S2' .21857 33698.88 143 'K1' .04951 40057.69 143 'O1' .03629 42544.08 144 'M2' .4663 30124.43 144 'S2' .21843 33692.4 144 'K1' .0494 40023.22 144 'O1' .0362 42507.42 145 'M2' .46647 30119.96 145 'S2' .21849 33689.76 145 'K1' .04943 39997.13 145 'O1' .03624 42480.05 146 'M2' .46601 30111.88 146 'S2' .21829 33682.92 146 'K1' .04929 39961.23 146 'O1' .03614 42442.09 147 'M2' .4658 30127.41 147 'S2' .2183 33703.2 147 'K1' .0494 40104.6 147 'O1' .0363 42622.57 148 'M2' .46561 30092.63 148 'S2' .21808 33666.72 148 'K1' .04913 39834.14 148 'O1' .03604 42296.21 149 'M2' .46547 30074.12 149 'S2' .21795 33648.36 149 'K1' .04897 39698.91 149 'O1' .03591 42138.71 150 'M2' .46524 30071.52 150 'S2' .21783 33646.32 150 'K1' .04889 39690.05 150 'O1' .03585 42131.23 151 'M2' .46527 30063.82 151 'S2' .21783 33638.76 151 'K1' .04889 39618.97 151 'O1' .03585 42042.41 152 'M2' .4653 30053.13 152 'S2' .21781 33628.2 152 'K1' .04889 39519.4 152 'O1' .03583 41917.96 153 'M2' .46598 30038.11 153 'S2' .21806 33614.04 153 'K1' .04902 39369.33 153 'O1' .03593 41734.64 154 'M2' .46528 30031.4 154 'S2' .21772 33607.8 154 'K1' .04886 39326.25 154 'O1' .0358 41680.94 155 'M2' .4652 30025.56 155 'S2' .21767 33602.4 155 'K1' .04885 39275.75 155 'O1' .03579 41618.71 156 'M2' .46562 30020.59 156 'S2' .21786 33597.72 156 'K1' .04896 39223.57 156 'O1' .03588 41555.71 157 'M2' .46551 30013.88 157 'S2' .21779 33591.6 157 'K1' .04895 39167.32 157 'O1' .03587 41486.52 158 'M2' .46546 30008.67 158 'S2' .21776 33586.8 158 'K1' .04895 39122.8 158 'O1' .03587 41431.79 159 'M2' .46577 30000.5 159 'S2' .21789 33579.36 159 'K1' .04903 39048.37 159 'O1' .03594 41342.7 160 'M2' .46557 29994.13 160 'S2' .21779 33573.6 160 'K1' .04901 38996.91 160 'O1' .03592 41278.93 161 'M2' .46543 29987.43 161 'S2' .2177 33567.48 161 'K1' .049 38940.19 161 'O1' .03591 41208.96 162 'M2' .46544 29981.96 162 'S2' .21769 33562.44 162 'K1' .04902 38891.84 162 'O1' .03593 41150.09 163 'M2' .46546 29978.11 163 'S2' .21769 33558.96 163 'K1' .04904 38858.81 163 'O1' .03595 41110.33 164 'M2' .4653 29974.63 164 'S2' .21762 33555.84 164 'K1' .049 38832.48 164 'O1' .03592 41077.54 165 'M2' .46555 29970.91 165 'S2' .21773 33552.36 165 'K1' .04906 38798.26 165 'O1' .03598 41036.49 166 'M2' .46537 29964.45 166 'S2' .21763 33546.48 166 'K1' .04902 38747.04 166 'O1' .03596 40973.23 167 'M2' .46525 29957.49 167 'S2' .21755 33540.12 167 'K1' .04901 38688.88 167 'O1' .03598 40901.45 168 'M2' .4654 29956.25 168 'S2' .21763 33539.04 168 'K1' .04905 38678.82 168 'O1' .036 40890.35 169 'M2' .46511 29954.88 169 'S2' .21749 33537.84 169 'K1' .04898 38668.77 169 'O1' .03596 40876.15 170 'M2' .46531 29954.39 170 'S2' .2176 33537.48 170 'K1' .04904 38666.62 170 'O1' .03597 40875.12 171 'M2' .46519 29950.66 171 'S2' .21755 33534.12 171 'K1' .04903 38638.38 171 'O1' .03595 40840 172 'M2' .46556 29947.81 172 'S2' .21773 33531.48 172 'K1' .04912 38614.2 172 'O1' .03602 40813.93 173 'M2' .46501 29943.83 173 'S2' .21747 33527.88 173 'K1' .04902 38583.32 173 'O1' .03593 40772.1 174 'M2' .46543 29945.7 174 'S2' .21767 33529.68 174 'K1' .0491 38599.36 174 'O1' .036 40796.11 175 'M2' .46529 29946.93 175 'S2' .21761 33531 175 'K1' .04906 38612.76 175 'O1' .03597 40811.34 176 'M2' .46476 29944.21 176 'S2' .21736 33528.24 176 'K1' .04896 38589.79 176 'O1' .03588 40778.55 177 'M2' .46516 29948.55 177 'S2' .21756 33532.68 177 'K1' .04903 38630 177 'O1' .03595 40832.25 178 'M2' .46502 29949.05 178 'S2' .21751 33533.28 178 'K1' .04899 38637.66 178 'O1' .03593 40841.55 179 'M2' .46571 29937.99 179 'S2' .2178 33522.96 179 'K1' .04914 38551.01 179 'O1' .03606 40744.99 180 'M2' .46488 29946.93 180 'S2' .21745 33531.36 180 'K1' .04896 38623.53 180 'O1' .03591 40824 181 'M2' .46563 29937 181 'S2' .21777 33522.24 181 'K1' .04912 38547.18 181 'O1' .03605 40741.38 182 'M2' .46533 29943.21 182 'S2' .21765 33528 182 'K1' .04904 38600.79 182 'O1' .03598 40803.86 183 'M2' .46643 29927.93 183 'S2' .21812 33513.6 183 'K1' .04931 38471.31 183 'O1' .03621 40656.69 184 'M2' .46506 29950.16 184 'S2' .21755 33534.6 184 'K1' .04897 38661.83 184 'O1' .03592 40876.15 185 'M2' .46536 29951.53 185 'S2' .2177 33536.04 185 'K1' .04903 38677.14 185 'O1' .03596 40900.42 186 'M2' .46487 29959.36 186 'S2' .21749 33543.36 186 'K1' .04892 38740.34 186 'O1' .03587 40969.88 187 'M2' .46464 29964.45 187 'S2' .2174 33548.16 187 'K1' .04887 38786.29 187 'O1' .03582 41024.35 188 'M2' .46539 29938.49 188 'S2' .21769 33524.52 188 'K1' .04905 38582.84 188 'O1' .03598 40793.79 189 'M2' .46444 29974.26 189 'S2' .21734 33557.52 189 'K1' .04882 38869.58 189 'O1' .03577 41122.98 190 'M2' .46478 29966.93 190 'S2' .21748 33550.8 190 'K1' .04889 38812.14 190 'O1' .03584 41060.5 191 'M2' .46492 29974.63 191 'S2' .21757 33557.88 191 'K1' .04889 38878.2 191 'O1' .03584 41143.89 192 'M2' .46426 29994.88 192 'S2' .21731 33576.72 192 'K1' .04876 39038.56 192 'O1' .03572 41325.41 193 'M2' .46408 30006.1 193 'S2' .21726 33587.28 193 'K1' .0487 39131.18 193 'O1' .03567 41436.43 194 'M2' .46487 29962.34 194 'S2' .21753 33547.08 194 'K1' .04882 38798.49 194 'O1' .03581 41062.31 195 'M2' .46399 30004.57 195 'S2' .21722 33585.96 195 'K1' .04865 39126.4 195 'O1' .03563 41435.14 196 'M2' .4661 29877.75 196 'S2' .2179 33469.2 196 'K1' .0491 38139.58 196 'O1' .0361 40306.58 197 'M2' .46477 29975.63 197 'S2' .21751 33559.68 197 'K1' .04872 38923.43 197 'O1' .03572 41219.29 198 'M2' .46538 29978.11 198 'S2' .2178 33561.72 198 'K1' .0488 38947.13 198 'O1' .03578 41253.11 199 'M2' .4643 30013.88 199 'S2' .21738 33595.44 199 'K1' .04851 39251.1 199 'O1' .03552 41612.78 200 'M2' .46484 29996.25 200 'S2' .21759 33579.24 200 'K1' .04852 39138.13 200 'O1' .03554 41495.04 201 'M2' .46426 30011.03 201 'S2' .21735 33593.04 201 'K1' .04836 39263.78 201 'O1' .0354 41641.18 202 'M2' .46488 29969.17 202 'S2' .21753 33554.16 202 'K1' .04838 38963.16 202 'O1' .03544 41301.91 203 'M2' .46495 29935.76 203 'S2' .21749 33523.08 203 'K1' .0483 38731 203 'O1' .03538 41037.26 204 'M2' .46592 29949.05 204 'S2' .21797 33535.2 204 'K1' .04859 38793.95 204 'O1' .03561 41104.91 205 'M2' .46446 29951.16 205 'S2' .21728 33537.12 205 'K1' .04808 38871.25 205 'O1' .03518 41200.18 206 'M2' .46466 29954.51 206 'S2' .21737 33540.72 206 'K1' .04806 38913.14 206 'O1' .03516 41251.3 207 'M2' .46405 29961.59 207 'S2' .21709 33547.2 207 'K1' .04787 38986.62 207 'O1' .035 41338.57 208 'M2' .46439 29952.4 208 'S2' .21724 33539.04 208 'K1' .04794 38918.41 208 'O1' .03505 41259.05 209 'M2' .4639 29961.96 209 'S2' .21703 33548.28 209 'K1' .04781 39003.85 209 'O1' .03494 41359.75 210 'M2' .46441 29945.7 210 'S2' .21723 33533.52 210 'K1' .04794 38875.09 210 'O1' .03505 41209.74 211 'M2' .46432 29940.35 211 'S2' .21718 33528.96 211 'K1' .0479 38845.41 211 'O1' .03503 41175.65 212 'M2' .46699 29900.24 212 'S2' .21839 33492 212 'K1' .04878 38426.55 212 'O1' .03579 40685.09 213 'M2' .46371 29934.89 213 'S2' .21686 33523.2 213 'K1' .04763 38838.47 213 'O1' .0348 41165.33 214 'M2' .4687 29876.51 214 'S2' .2192 33471.6 214 'K1' .0495 38149.15 214 'O1' .0364 40360.8 215 'M2' .46302 29930.79 215 'S2' .2165 33518.4 215 'K1' .0473 38849.71 215 'O1' .03452 41178.23 216 'M2' .46361 29914.77 216 'S2' .21674 33503.28 216 'K1' .04739 38731.96 216 'O1' .03461 41041.14 217 'M2' .46256 29924.45 217 'S2' .21625 33512.04 217 'K1' .04707 38844.21 217 'O1' .03434 41174.11 218 'M2' .46339 29906.45 218 'S2' .21661 33495.24 218 'K1' .04728 38688.88 218 'O1' .03452 40989.24 219 'M2' .46207 29914.64 219 'S2' .216 33502.44 219 'K1' .04689 38801.37 219 'O1' .03419 41122.21 220 'M2' .46322 29904.08 220 'S2' .21653 33493.08 220 'K1' .04722 38677.86 220 'O1' .03447 40973.75 221 'M2' .24849 29029.18 221 'S2' .11794 33053.52 221 'K1' .0074 21439.3 221 'O1' .00894 12645.54 222 'M2' .24955 28988.19 222 'S2' .11833 33014.4 222 'K1' .00791 21594.4 222 'O1' .00938 13349.12 223 'M2' .25029 28938.38 223 'S2' .11853 32968.8 223 'K1' .00863 21572.62 223 'O1' .0099 13938.83 224 'M2' .25147 28887.58 224 'S2' .11897 32918.52 224 'K1' .00932 21636.52 224 'O1' .01048 14578.89 225 'M2' .25214 28850.82 225 'S2' .11917 32883.84 225 'K1' .00982 21634.37 225 'O1' .01092 14960.5 226 'M2' .253 28800.89 226 'S2' .1194 32836.8 226 'K1' .0105 21627.19 226 'O1' .0115 15439.97 227 'M2' .25394 28758.16 227 'S2' .11977 32795.88 227 'K1' .01112 21630.06 227 'O1' .01209 15793.69 228 'M2' .25457 28723.26 228 'S2' .11996 32762.64 228 'K1' .01161 21610.91 228 'O1' .01252 16053.43 229 'M2' .25505 28691.83 229 'S2' .12009 32733 229 'K1' .01204 21580.52 229 'O1' .01294 16253.02 230 'M2' .25535 28679.29 230 'S2' .12019 32720.88 230 'K1' .01222 21584.59 230 'O1' .0131 16344.68 231 'M2' .25582 28657.68 231 'S2' .12033 32700.48 231 'K1' .01253 21575.97 231 'O1' .01336 16487.97 232 'M2' .25613 28625.13 232 'S2' .1204 32670.72 232 'K1' .01295 21519.48 232 'O1' .0138 16628.17 233 'M2' .25632 28601.79 233 'S2' .12043 32649.36 233 'K1' .01325 21469.94 233 'O1' .01411 16712.86 234 'M2' .25704 28586.76 234 'S2' .12072 32633.52 234 'K1' .01352 21525.71 234 'O1' .01434 16876.55 235 'M2' .25707 28556.95 235 'S2' .12066 32607.6 235 'K1' .01386 21432.36 235 'O1' .01472 16931.55 236 'M2' .25716 28534.22 236 'S2' .12065 32587.32 236 'K1' .01414 21371.57 236 'O1' .01502 16985.51 237 'M2' .25781 28504.16 237 'S2' .12083 32559 237 'K1' .01457 21365.82 237 'O1' .01538 17141.2 238 'M2' .25791 28487.52 238 'S2' .12084 32544.12 238 'K1' .01476 21329.92 238 'O1' .0156 17181.48 239 'M2' .25814 28470.13 239 'S2' .12092 32528.28 239 'K1' .015 21304.79 239 'O1' .01582 17241.13 240 'M2' .25823 28459.44 240 'S2' .12094 32518.68 240 'K1' .01513 21283.49 240 'O1' .01595 17268.23 241 'M2' .25853 28453.86 241 'S2' .12106 32513.04 241 'K1' .01521 21311.01 241 'O1' .01604 17329.17 242 'M2' .25853 28441.44 242 'S2' .12104 32502 242 'K1' .01535 21275.11 242 'O1' .0162 17346.47 243 'M2' .25873 28427.4 243 'S2' .12109 32489.16 243 'K1' .01553 21258.84 243 'O1' .01638 17395.52 244 'M2' .25854 28414.11 244 'S2' .12098 32477.76 244 'K1' .01567 21192.78 244 'O1' .01655 17374.35 245 'M2' .25875 28398.09 245 'S2' .12104 32463.24 245 'K1' .01587 21172.43 245 'O1' .01677 17422.89 246 'M2' .2589 28382.31 246 'S2' .1211 32449.2 246 'K1' .0161 21148.5 246 'O1' .017 17466.79 247 'M2' .25899 28380.33 247 'S2' .12112 32447.16 247 'K1' .01611 21151.61 247 'O1' .01702 17478.14 248 'M2' .25891 28367.53 248 'S2' .12103 32436 248 'K1' .01623 21101.35 248 'O1' .01716 17470.66 249 'M2' .25905 28351.51 249 'S2' .12104 32421.36 249 'K1' .01641 21070.47 249 'O1' .01735 17501.64 250 'M2' .25902 28334.24 250 'S2' .12097 32406.12 250 'K1' .01661 21010.16 250 'O1' .01757 17499.58 251 'M2' .25908 28317.6 251 'S2' .12097 32391.36 251 'K1' .01678 20965.16 251 'O1' .01776 17509.13 252 'M2' .2592 28296.61 252 'S2' .121 32372.4 252 'K1' .017 20913.94 252 'O1' .018 17531.33 253 'M2' .25923 28298.35 253 'S2' .121 32373.84 253 'K1' .01699 20922.32 253 'O1' .01798 17533.14 254 'M2' .25897 28289.78 254 'S2' .12085 32367 254 'K1' .01707 20866.31 254 'O1' .01809 17494.15 255 'M2' .25888 28274.88 255 'S2' .12076 32354.28 255 'K1' .01722 20809.11 255 'O1' .01827 17475.82 256 'M2' .25859 28264.07 256 'S2' .12059 32345.28 256 'K1' .01733 20748.55 256 'O1' .01843 17440.19 257 'M2' .25825 28255.87 257 'S2' .12041 32338.56 257 'K1' .01741 20687.04 257 'O1' .01854 17395.52 ------------------------------------------------------------------------------- C18 PERIODIC FORCING (TIDAL) SURF ELEV OR PRESSURE ON SOUTH OPEN BOUNDARIES * IPBS: I CELL INDEX OF BOUNDARY CELL * JPBS: J CELL INDEX OF BOUNDARY CELL * ISPBS: 0 FOR ELEVATION SPECIFIED * 1 FOR RADIATION-SEPARATION CONDITION, ZERO TANGENTIAL VELOCITY * 2 FOR RADIATION-SEPARATION CONDITION, FREE TANGENTIAL VELOCITY * 3 FOR ELEVATION SPECIFIED, FREE TANGENTIAL VELOCITY * NPFORS: APPLY HARMONIC FORCING NUMBER NPFORS * NPSERS: APPLY TIME SERIES FORCING NUMBER NPSERS * NPSERS1: APPLY TIME SERIES FORCING NUMBER NPSERS1 FOR 2ND SERIES (NPFORT.GE.1) * TPCOORDS: TANGENTIAL COORDINATE ALONG BOUNDARY (NPFORT.GE.1) * C18 IPBS JPBS ISPBS NPFORS NPSERS 4 3 0 1 0 ! 5 3 0 2 0 ! 6 3 0 3 0 ! 7 3 0 4 0 ! 8 3 0 5 0 ! 9 3 0 6 0 ! 10 3 0 7 0 ! 11 3 0 8 0 ! 12 3 0 9 0 ! 13 3 0 10 0 ! 14 3 0 11 0 ! 15 3 0 12 0 ! 16 3 0 13 0 ! 17 3 0 14 0 ! 18 3 0 15 0 ! 19 3 0 16 0 ! 20 3 0 17 0 ! 21 3 0 18 0 ! 22 3 0 19 0 ! 23 3 0 20 0 ! 24 3 0 21 0 ! 25 3 0 22 0 ! 26 3 0 23 0 ! 27 3 0 24 0 ! 28 3 0 25 0 ! 29 3 0 26 0 ! 30 3 0 27 0 ! 31 3 0 28 0 ! 32 3 0 29 0 ! 33 3 0 30 0 ! 34 3 0 31 0 ! 35 3 0 32 0 ! 36 3 0 33 0 ! 37 3 0 34 0 ! 38 3 0 35 0 ! 39 3 0 36 0 ! 40 3 0 37 0 ! 41 3 0 38 0 ! 42 3 0 39 0 ! 43 3 0 40 0 ! 44 3 0 41 0 ! 45 3 0 42 0 ! 46 3 0 43 0 ! 47 3 0 44 0 ! 48 3 0 45 0 ! 49 3 0 46 0 ! 50 3 0 47 0 ! 51 3 0 48 0 ! 52 3 0 49 0 ! 53 3 0 50 0 ! 54 3 0 51 0 ! 55 3 0 52 0 ! 56 3 0 53 0 ! 57 3 0 54 0 ! 58 3 0 55 0 ! 59 3 0 56 0 ! 60 3 0 57 0 ! 61 3 0 58 0 ! 62 3 0 59 0 ! 63 3 0 60 0 ! 64 3 0 61 0 ! 65 3 0 62 0 ! 66 3 0 63 0 ! 67 3 0 64 0 ! 68 3 0 65 0 ! 69 3 0 66 0 ! 70 3 0 67 0 ! 71 3 0 68 0 ! 72 3 0 69 0 ! 73 3 0 70 0 ! 74 3 0 71 0 ! 75 3 0 72 0 ! 76 3 0 73 0 ! 77 3 0 74 0 ! 78 3 0 75 0 ! 79 3 0 76 0 ! 80 3 0 77 0 ! 81 3 0 78 0 ! 82 3 0 79 0 ! 83 3 0 80 0 ! 84 3 0 81 0 ! 85 3 0 82 0 ! 86 3 0 83 0 ! 87 3 0 84 0 ! 88 3 0 85 0 ! 89 3 0 86 0 ! 90 3 0 87 0 ! 91 3 0 88 0 ! 92 3 0 89 0 ! 93 3 0 90 0 ! 94 3 0 91 0 ! 95 3 0 92 0 ! 96 3 0 93 0 ! 97 3 0 94 0 ! 98 3 0 95 0 ! 99 3 0 96 0 ! 100 3 0 97 0 ! 101 3 0 98 0 ! 102 3 0 99 0 ! 103 3 0 100 0 ! 104 3 0 101 0 ! 105 3 0 102 0 ! 106 3 0 103 0 ! 107 3 0 104 0 ! 108 3 0 105 0 ! 109 3 0 106 0 ! 110 3 0 107 0 ! 111 3 0 108 0 ! 112 3 0 109 0 ! 113 3 0 110 0 ! 114 3 0 111 0 ! 115 3 0 112 0 ! 116 3 0 113 0 ! 117 3 0 114 0 ! 118 3 0 115 0 ! 119 3 0 116 0 ! 120 3 0 117 0 ! 121 3 0 118 0 ! 122 3 0 119 0 ! 123 3 0 120 0 ! 124 3 0 121 0 ! 125 3 0 122 0 ! 126 3 0 123 0 ! 127 3 0 124 0 ! 128 3 0 125 0 ! 129 3 0 126 0 ! 130 3 0 127 0 ! 131 3 0 128 0 ! 132 3 0 129 0 ! 133 3 0 130 0 ! 134 3 0 131 0 ! ------------------------------------------------------------------------------- C19 PERIODIC FORCING (TIDAL) SURF ELEV OR PRESSURE ON WEST OPEN BOUNDARIES * * IPBW: SEE CARD 18 * JPBW: * ISPBW: * NPFORW: * NPSERW: * TPCOORDW: * C19 IPBW JPBW ISPBW NPFORW NPSERW 3 5 0 132 0 ! 3 6 0 133 0 ! 3 7 0 134 0 ! 3 8 0 135 0 ! 3 9 0 136 0 ! 3 10 0 137 0 ! 3 11 0 138 0 ! 3 12 0 139 0 ! 3 13 0 140 0 ! 3 14 0 141 0 ! 3 15 0 142 0 ! 3 16 0 143 0 ! 3 17 0 144 0 ! 3 18 0 145 0 ! 3 19 0 146 0 ! 3 20 0 147 0 ! 3 21 0 148 0 ! 3 22 0 149 0 ! 3 23 0 150 0 ! 3 24 0 151 0 ! 3 25 0 152 0 ! 3 26 0 153 0 ! 3 27 0 154 0 ! 3 28 0 155 0 ! 3 29 0 156 0 ! 3 30 0 157 0 ! 3 31 0 158 0 ! 3 32 0 159 0 ! 3 33 0 160 0 ! 3 34 0 161 0 ! 3 35 0 162 0 ! 3 36 0 163 0 ! 3 37 0 164 0 ! 3 38 0 165 0 ! 3 39 0 166 0 ! 3 40 0 167 0 ! 3 41 0 168 0 ! 3 42 0 169 0 ! 3 43 0 170 0 ! 3 44 0 171 0 ! 3 45 0 172 0 ! 3 46 0 173 0 ! 3 47 0 174 0 ! 3 48 0 175 0 ! 3 49 0 176 0 ! 3 50 0 177 0 ! 3 51 0 178 0 ! 3 52 0 179 0 ! 3 53 0 180 0 ! 3 54 0 181 0 ! 3 55 0 182 0 ! 3 56 0 183 0 ! 3 57 0 184 0 ! 3 58 0 185 0 ! 3 59 0 186 0 ! 3 60 0 187 0 ! 3 61 0 188 0 ! 3 62 0 189 0 ! 3 63 0 190 0 ! 3 64 0 191 0 ! 3 65 0 192 0 ! 3 66 0 193 0 ! 3 67 0 194 0 ! 3 68 0 195 0 ! 3 69 0 196 0 ! 3 70 0 197 0 ! 3 71 0 198 0 ! 3 72 0 199 0 ! 3 73 0 200 0 ! 3 74 0 201 0 ! 3 75 0 202 0 ! 3 76 0 203 0 ! 3 77 0 204 0 ! 3 78 0 205 0 ! 3 79 0 206 0 ! 3 80 0 207 0 ! 3 81 0 208 0 ! 3 82 0 209 0 ! 3 83 0 210 0 ! 3 84 0 211 0 ! 3 85 0 212 0 ! 3 86 0 213 0 ! 3 87 0 214 0 ! 3 88 0 215 0 ! 3 89 0 216 0 ! 3 90 0 217 0 ! 3 91 0 218 0 ! 3 92 0 219 0 ! 3 93 0 220 0 ! ------------------------------------------------------------------------------- C20 PERIODIC FORCING (TIDAL) SURF ELEV OR PRESSURE ON EAST OPEN BOUNDARIES * * IPBE: SEE CARD 18 * JPBE: * ISPBE: * NPFORE: * NPSERE: * TPCOORDE: * C20 IPBE JPBE ISPBE NPFORE NPSERE 135 5 0 221 0 ! 135 6 0 222 0 ! 135 7 0 223 0 ! 135 8 0 224 0 ! 135 9 0 225 0 ! 135 10 0 226 0 ! 135 11 0 227 0 ! 135 12 0 228 0 ! 135 13 0 229 0 ! 135 14 0 230 0 ! 135 15 0 231 0 ! 135 16 0 232 0 ! 135 17 0 233 0 ! 135 18 0 234 0 ! 135 19 0 235 0 ! 135 20 0 236 0 ! 135 21 0 237 0 ! 135 22 0 238 0 ! 135 23 0 239 0 ! 135 24 0 240 0 ! 135 25 0 241 0 ! 135 26 0 242 0 ! 135 27 0 243 0 ! 135 28 0 244 0 ! 135 29 0 245 0 ! 135 30 0 246 0 ! 135 31 0 247 0 ! 135 32 0 248 0 ! 135 33 0 249 0 ! 135 34 0 250 0 ! 135 35 0 251 0 ! 135 36 0 252 0 ! 135 37 0 253 0 ! 135 38 0 254 0 ! 135 39 0 255 0 ! 135 40 0 256 0 ! 135 41 0 257 0 ! ------------------------------------------------------------------------------- C21 PERIODIC FORCING (TIDAL) SURF ELEV OR PRESSURE ON NORTH OPEN BOUNDARIES * * IPBN: SEE CARD 18 * JPBN: * ISPBN: * NPFORN: * NPSERN: * TPCOORDN: * C21 IPBN JPBN ISPBN NPFORN NPSERN ------------------------------------------------------------------------------- C22 SPECIFY NUM OF SEDIMENT AND TOXICS AND NUM OF CONCENTRATION TIME SERIES * * NTOX: NUMBER OF TOXIC CONTAMINANTS (DEFAULT = 1) * NSED: NUMBER OF COHESIVE SEDIMENT SIZE CLASSES (DEFAULT = 1) * NSND: NUMBER OF NON-COHESIVE SEDIMENT SIZE CLASSES (DEFAULT = 1) * NCSER1: NUMBER OF SALINITY TIME SERIES * NCSER2: NUMBER OF TEMPERATURE TIME SERIES * NCSER3: NUMBER OF DYE CONCENTRATION TIME SERIES * NCSER4: NUMBER OF SHELLFISH LARVAE CONCENTRATION TIME SERIES * NCSER5: NUMBER OF TOXIC CONTAMINANT CONCENTRATION TIME SERIES * EACH TIME SERIES MUST HAVE DATA FOR NTOX TOXICICANTS * NCSER6: NUMBER OF COHESIVE SEDIMENT CONCENTRATION TIME SERIES * EACH TIME SERIES MUST HAVE DATA FOR NSED COHESIVE SEDIMENTS * NCSER7: NUMBER OF NON-COHESIVE SEDIMENT CONCENTRATION TIME SERIES * EACH TIME SERIES MUST HAVE DATA FOR NSND NON-COHESIVE SEDIMENTS * ISSBAL: SET TO 1 FOR SEDIENT MASS BALANCE * C22 NTOX NSED NSND NCSER1 NCSER2 NCSER3 NCSER4 NCSER5 NCSER6 NCSER7 ISSBAL 0 0 0 0 0 0 0 0 0 0 0 ------------------------------------------------------------------------------- C23 VELOCITY, VOLUMN SOURCE/SINK, FLOW CONTROL, AND WITHDRAWAL/RETURN DATA * * NQSIJ: NUMBER OF CONSTANT AND/OR TIME SERIES SPECIFIED SOURCE/SINK * LOCATIONS (RIVER INFLOWS,ETC) . * NQJPIJ: NUMBER OF CONSTANT AND/OR TIME SERIES SPECIFIED SOURCE * LOCATIONS TREATED AS JETS/PLUMES . * NQSER: NUMBER OF VOLUME SOURCE/SINK TIME SERIES * NQCTL: NUMBER OF PRESSURE CONTROLLED WITHDRAWAL/RETURN PAIRS * NQCTLT: NUMBER OF PRESSURE CONTROLLED WITHDRAWAL/RETURN TABLES * NHYDST: NUMBER OF HYDRAULIC STRUCTURE DEFINITIONS * NQWR: NUMBER OF CONSTANT OR TIME SERIES SPECIFIED WITHDRAWL/RETURN * PAIRS * NQWRSR: NUMBER OF TIME SERIES SPECIFYING WITHDRAWL,RETURN AND * CONCENTRATION RISE SERIES * ISDIQ: SET TO 1 TO WRITE DIAGNOSTIC FILE, DIAQ.OUT * NQCTLSER: NUMBER OF GATE OPENING TIME-SERIES FOR HYDRAULIC STRUCTURE CONTROL * NQCRULES: NUMBER OF OPERATIONAL RULES FOR HYDRAULIC STRUCTURE CONTROL * C23 NQSIJ NQJPIJ NQSER NQCTL NQCTLT NHYDST NQWR NQWRSR ISDIQ NQCTLSER NQCRULES 5 0 4 0 0 0 0 0 0 0 0 ------------------------------------------------------------------------------- C24 VOLUMETRIC SOURCE/SINK LOCATIONS, MAGNITUDES, AND CONCENTRATION SERIES * * IQS: I CELL INDEX OF VOLUME SOURCE/SINK * JQS: J CELL INDEX OF VOLUME SOURCE/SINK * QSSE: CONSTANT INFLOW/OUTFLOW RATE IN (m^3/s) * NQSMUL: MULTIPLIER SWITCH FOR CONSTANT AND TIME SERIES VOL S/S * = 0 MULT BY 1. FOR NORMAL IN/OUTFLOW (L*L*L/T) * = 1 MULT BY DY FOR LATERAL IN/OUTFLOW (L*L/T) ON U FACE * = 2 MULT BY DX FOR LATERAL IN/OUTFLOW (L*L/T) ON V FACE * = 3 MULT BY DX+DY FOR LATERAL IN/OUTFLOW (L*L/T) ON U&V FACES * NQSMF: IF NON ZERO ACCOUNT FOR VOL S/S MOMENTUM FLUX (NEGATIVE VALUES REVERSE FLOW DIRECTION) * = 1 MOMENTUM FLUX ON WEST U FACE * = 2 MOMENTUM FLUX ON SOUTH V FACE * = 3 MOMENTUM FLUX ON EAST U FACE * = 4 MOMENTUM FLUX ON NORTH V FACE * IQSERQ: ID NUMBER OF ASSOCIATED VOLUMN FLOW TIME SERIES * ICSER1: ID NUMBER OF ASSOCIATED SALINITY TIME SERIES * ICSER2: ID NUMBER OF ASSOCIATED TEMPERATURE TIME SERIES * ICSER3: ID NUMBER OF ASSOCIATED DYE CONC TIME SERIES * ICSER4: ID NUMBER OF ASSOCIATED SHELL FISH LARVAE RELEASE TIME SERIES * ICSER5: ID NUMBER OF ASSOCIATED TOXIC CONTAMINANT CONC TIME SERIES * ICSER6: ID NUMBER OF ASSOCIATED COHESIVE SEDIMENT CONC TIME SERIES * ICSER7: ID NUMBER OF ASSOCIATED NON-COHESIVE SED CONC TIME SERIES * QWIDTH: WIDTH OF THE DISCHARGE FOR FOR MOMENTUM FLUX (M) (NQSMF /= 0) * QSFACTOR: FRACTION OF TIME SERIES FLOW NQSERQ ASSIGNED TO THIS CELL * C24 IQS JQS QSSE NQSMUL NQSMF IQSERQ ICSER1 ICSER2 ICSER3 ICSER4 ICSER5 ICSER6 ICSER7 QWIDTH QSFACTOR ! ID 86 141 0.0000E+00 0 0 1 0 0 0 0 0 0 0 0.0000 1.0000E+00 ! Dongcheon river 86 140 0.0000E+00 0 0 1 0 0 0 0 0 0 0 0.0000 1.0000E+00 ! Dongcheon river 78 154 0.0000E+00 0 0 2 0 0 0 0 0 0 0 0.0000 1.0000E+00 ! busan stream 67 154 0.0000E+00 0 0 3 0 0 0 0 0 0 0 0.0000 1.0000E+00 ! Choryang stream 58 88 0.0000E+00 0 0 4 0 0 0 0 0 0 0 0.0000 1.0000E+00 ! Discharge water ------------------------------------------------------------------------------- C25 TIME CONSTANT INFLOW CONCENTRATIONS FOR TIME CONSTANT VOLUMETRIC SOURCES * * SAL: SALT CONCENTRATION CORRESPONDING TO INFLOW ABOVE * TEM: TEMPERATURE CORRESPONDING TO INFLOW ABOVE * DYE: DYE CONCENTRATION CORRESPONDING TO INFLOW ABOVE * SFL: SHELL FISH LARVAE CONCENTRATION CORRESPONDING TO INFLOW ABOVE * TOX: NTOX TOXIC CONTAMINANT CONCENTRATIONS CORRESPONDING TO * INFLOW ABOVE WRITTEN AS TOXC(N), N=1,NTOX A SINGLE DEFAULT * VALUE IS REQUIRED EVEN IF TOXIC TRANSPORT IS NOT ACTIVE * C25 SAL TEM DYE SFL ! ID 0 0 0 0 ! Dongcheon river 0 0 0 0 ! Dongcheon river 0 0 0 0 ! busan stream 0 0 0 0 ! Choryang stream 0 0 0 0 ! Discharge water ------------------------------------------------------------------------------- C26 TIME CONSTANT INFLOW CONCENTRATIONS FOR TIME CONSTANT VOLUMETRIC SOURCES * * SED: NSED COHESIVE SEDIMENT CONCENTRATIONS CORRESPONDING TO * INFLOW ABOVE WRITTEN AS SEDC(N), N=1,NSED. I.E., THE FIRST * NSED VALUES ARE COHESIVE A SINGLE DEFAULT VALUE IS REQUIRED * EVEN IF COHESIVE SEDIMENT TRANSPORT IS INACTIVE * SND: NSND NON-COHESIVE SEDIMENT CONCENTRATIONS CORRESPONDING TO * INFLOW ABOVE WRITTEN AS SND(N), N=1,NSND. I.E., THE LAST * NSND VALUES ARE NON-COHESIVE. A SINGLE DEFAULT VALUE IS * REQUIRED EVEN IF NON-COHESIVE SEDIMENT TRANSPORT IS INACTIVE * C26 SED1 SND1 ! Dongcheon river ! Dongcheon river ! busan stream ! Choryang stream ! Discharge water ------------------------------------------------------------------------------- C27 JET/PLUME SOURCE LOCATIONS, GEOMETRY AND ENTRAINMENT PARAMETERS * * ID: ID COUNTER FOR JET/PLUME * ICAL: 0 BYPASS, 1 ACTIVE (NORMAL - TOTAL LAYER FLOW AT DIFFUSER), 2 - W/R (USE W/R SERIES) * IQJP: I CELL INDEX OF JET/PLUME * JQJP: J CELL INDEX OF JET/PLUME * KQJP: K CELL INDEX OF JET/PLUME (DEFAULT, QJET=0 OR JET COMP DIVERGES) * NPORT: NUMBER OF IDENTIAL PORTS IN THIS CELL * XJET: LOCAL EAST JET LOCATION RELATIVE TO DISCHARGE CELL CENTER (m) (NOT USED) * YJET: LOCAL NORTH JET LOCATION RELATIVE TO DISCHARGE CELL CENTER (m)(NOT USED) * ZJET: ELEVATION OF DISCHARGE (m) * PHJET: VERTICAL JET ANGLE POSITIVE FROM HORIZONTAL (DEGREES) * THJET: HORIZONTAL JET ANGLE POS COUNTER CLOCKWISE FROM EAST (DEGREES) * DJET: DIAMETER OF DISCHARGE PORT (m) * CFRD: ADJUSTMENT FACTOR FOR FROUDE NUMBER * DJPER: ENTRAINMENT ERROR CRITERIA * C27 ID ICAL IQJP JQJP KQJP NPORT XJET YJET ZJET PHJET THJET DJET CFRD DJPER !ID ------------------------------------------------------------------------------- C28 JET/PLUME SOLUTION CONTROL AND OUTPUT CONTROL PARAMETERS * * ID: ID COUNTER FOR JET/PLUME * NJEL: MAXIMUM NUMBER OF ELEMENTS ALONG JET/PLUME LENGTH * NJPMX: MAXIMUM NUMBER OF ITERATIONS * ISENT: 0 USE MAXIMUM OF SHEAR AND FORCED ENTRAINMENT * 1 USE SUM OF SHEAR AND FORCED ENTRAINMENT * ISTJP: 0 STOP AT SPECIFIED NUMBER OF ELEMENTS * 1 STOP WHEN CENTERLINE PENETRATES BOTTOM OR SURFACE * 2 STOP WITH BOUNDARY PENETRATES BOTTOM OR SURFACE * NUDJP: FREQUENCY FOR UPDATING JET/PLUME (NUMBER OF TIME STEPS) * IOJP: 1 FOR FULL ASCII, 2 FOR COMPACT ASCII OUTPUT AT EACH UPDATE * 3 FOR FULL AND COMPACT ASCII OUTPUT, 4 FOR BINARY OUTPUT * IPJP: NUMBER OF SPATIAL PRINT/SAVE POINT IN VERTICAL * ISDJP: 1 WRITE DIAGNOSTICS TO JPLOG__.OUT * IUPJP: I INDEX OF UPSTREAM WITHDRAWAL CELL IF ICAL=2 * JUPJP: J INDEX OF UPSTREAM WITHDRAWAL CELL IF ICAL=2 * KUPJP: K INDEX OF UPSTREAM WITHDRAWAL CELL IF ICAL=2 * C28 ID NJEL NJPMX ISENT ISTJP NUDJP IOJP IPJP ISDJP IUPJP JUPJP KUPJP ! ID ------------------------------------------------------------------------------- C29 JET/PLUME SOURCE PARAMETERS AND DISCHARGE/CONCENTRATION SERIES IDS * * ID: ID COUNTER FOR JET/PLUME * QQJP: CONSTANT JET/PLUME FLOW RATE IN (m^/s) * FOR ICAL = 1 OR 2 (FOR SINGLE PORT) * NQSERJP: ID NUMBER OF ASSOCIATED VOLUMN FLOW TIME SERIES * NQWRSERJP: ID NUMBER OF ASSOCIATED WITHDAWAL-RETURN TIME SERIES (ICAL=2) * ICSER1: ID NUMBER OF ASSOCIATED SALINITY TIME SERIES * ICSER2: ID NUMBER OF ASSOCIATED TEMPERATURE TIME SERIES * ICSER3: ID NUMBER OF ASSOCIATED DYE CONC TIME SERIES * ICSER4: ID NUMBER OF ASSOCIATED SHELL FISH LARVAE RELEASE TIME SERIES * ICSER5: ID NUMBER OF ASSOCIATED TOXIC CONTAMINANT CONC TIME SERIES * ICSER6: ID NUMBER OF ASSOCIATED COHESIVE SEDIMENT CONC TIME SERIES * ICSER7: ID NUMBER OF ASSOCIATED NON-COHESIVE SED CONC TIME SERIES * C29 ID QQJP NQSERJP NQWRSERJP ICSER1 ICSER2 ICSER3 ICSER4 ICSER5 ICSER6 ICSER7 ! ID ------------------------------------------------------------------------------- C30 TIME CONSTANT INFLOW CONCENTRATIONS FOR TIME CONSTANT JET/PLUME SOURCES * * SAL: SALT CONCENTRATION CORRESPONDING TO INFLOW ABOVE * TEM: TEMPERATURE CORRESPONDING TO INFLOW ABOVE * DYE: DYE CONCENTRATION CORRESPONDING TO INFLOW ABOVE * SFL: SHELL FISH LARVAE CONCENTRATION CORRESPONDING TO INFLOW ABOVE * TOX: NTOX TOXIC CONTAMINANT CONCENTRATIONS CORRESPONDING TO * INFLOW ABOVE WRITTEN AS TOXC(N), N=1,NTOX A SINGLE DEFAULT * VALUE IS REQUIRED EVEN IF TOXIC TRANSPORT IS NOT ACTIVE * C30 SAL TEM DYE SFL ! ID ------------------------------------------------------------------------------- C31 TIME CONSTANT INFLOW CONCENTRATIONS FOR TIME CONSTANT JET/PLUME SOURCES * * SED: NSED COHESIVE SEDIMENT CONCENTRATIONS CORRESPONDING TO * INFLOW ABOVE WRITTEN AS SEDC(N), N=1,NSED. I.E., THE FIRST * NSED VALUES ARE COHESIVE A SINGLE DEFAULT VALUE IS REQUIRED * EVEN IF COHESIVE SEDIMENT TRANSPORT IS INACTIVE * SND: NSND NON-COHESIVE SEDIMENT CONCENTRATIONS CORRESPONDING TO * INFLOW ABOVE WRITTEN AS SND(N), N=1,NSND. I.E., THE LAST * NSND VALUES ARE NON-COHESIVE. A SINGLE DEFAULT VALUE IS * REQUIRED EVEN IF NON-COHESIVE SEDIMENT TRANSPORT IS INACTIVE * C31 SED1 SND1 ! ID ------------------------------------------------------------------------------- C32 SURFACE ELEV OR PRESSURE DEPENDENT FLOW INFORMATION * * IQCTLU: I INDEX OF UPSTREAM OR WITHDRAWAL CELL * JQCTLU: J INDEX OF UPSTREAM OR WITHDRAWAL CELL * IQCTLD: I INDEX OF DOWNSTREAM OR RETURN CELL * JQCTLD: J INDEX OF DOWNSTREAM OR RETURN CELL * NQCTYP: FLOW CONTROL TYPE * = -2 FLOW AS FUNCTION OF UPSTREAM ELEVATION RATING CURVE OF A GROUP OF CELLS * = -1 FLOW AS FUNCTION OF UPSTREAM DEPTH (STAGE RATING CURVE) * = 0 FLOW AS FUNCTION OF ELEVATION OR PRESSURE DIFFERCENCE TABLE * = 1 SAME AS 0 WITH ACCELERATING FLOW (E.G. TIDAL INLET) * = 2 FLOW DERIVED FROM UPSTREAM AND DOWNSTREAM WS ELEVATIONS * = 3 LOWER CHORD OPTION USING UPSTREAM DEPTH WHEN WSEL > BQCLCE * = 4 LOWER CHORD OPTION USING ELEVATION DIFFERENCE WHEN WSEL > BQCLCE * = 5 CULVERT * = 6 SLUICE GATE * = 7 WEIR * = 8 ORIFICE * = 9 FLOATING SKIMMER WALL (NOT AVAILABLE) * = 10 SUBMERGED WEIR (NOT AVAILABLE) * NQCTLQ: ID NUMBER OF CONTROL CHARACTERIZATION TABLE * NQCMUL: MULTIPLIER SWITCH FOR FLOWS FROM UPSTREAM CELL * = 0 MULT BY 1. FOR CONTROL TABLE IN (L*L*L/T) * = 1 MULT BY DY FOR CONTROL TABLE IN (L*L/T) ON U FACE * = 2 MULT BY DX FOR CONTROL TABLE IN (L*L/T) ON V FACE * = 3 MULT BY DX+DY FOR CONTROL TABLE IN (L*L/T) ON U&V FACES * HQCTLU: OFFSET FOR UPSTREAM HEAD (m) * SET TO CELL'S BOTTOM ELEVATION TO USE ELEVATION INSTEAD OF DEPTH FOR NQCTYP = -1 or 3 * HQCTLD: OFFSET FOR DOWNSTREAM HEAD (m) * QTCLMU: MULTIPLIER TO SPLIT THE TOTAL QCTL RATING TABLE INTO CELL SPECIFIC FLOWS [ONLY USED IF NQCTYP = -2] * QTCLGRP: NUMBER IDENTIFIER TO ASSOCIATE PHYSICALLY BASED FLOW GROUPS [ONLY USED IF NQCTYP = -2] * BQCLCE: LOWER CHORD ELEVATION (m) [ONLY USED IF NQCTYP = 3 OR 4] * NQCMINS: MINIMUM NUMBER OF STEPS REQUIRED ABOVE LOWER CHORD [ONLY USED IF NQCTYP = 3 OR 4] * * *** LOOKUP TABLE HEAD DETERMINATION (HUP & HDW) FOR LOW CHORD * *** NQCTYP = 3: HUP = HP(LU) + HCTLUA(NCTLT) + HQCTLU(NCTL) * *** NQCTYP = 4: HUP = HP(LU) + BELV(LU) + HCTLUA(NCTLT) + HQCTLU(NCTL) * *** NQCTYP = 4: HDW = HP(LD) + BELV(LD) + HCTLDA(NCTLT) + HQCTLD(NCTL) * *HS_FACTOR: DISCHARGE DISTRIBUTION FACTOR (ONLY USED FOR NQCTYP>4) *HS_NTIMES: NUMBER OF TIMES HYDRAULIC STRUCTURE DEFINITION CHANGES (IN DEVELOPMENT) *HS_TRANSITION: NUMBER OF SECONDS TO TRANSITION FROM TIME (T) TO TIME (T+1) (IN DEVELOPMENT) * C32 IQCTLU JQCTLU IQCTLD JQCTLD NQCTYP NQCTLQ NQCMUL HQCTLU HQCTLD QTCLMU QTCLGRP BQCLCE NQCMINS FACTOR NTIMES TRANSIT ------------------------------------------------------------------------------- C33 FLOW WITHDRAWAL, HEAT OR MATERIAL ADDITION, AND RETURN DATA * * IWRU: I INDEX OF UPSTREAM OR WITHDRAWAL CELL * JWRU: J INDEX OF UPSTREAM OR WITHDRAWAL CELL * KWRU: K INDEX OF UPSTREAM OR WITHDRAWAL LAYER * IWRD: I INDEX OF DOWNSTREAM OR RETURN CELL * JWRD: J INDEX OF DOWNSTREAM OR RETURN CELL * KWRD: J INDEX OF DOWNSTREAM OR RETURN LAYER * QWRE: CONSTANT VOLUME FLOW RATE FROM WITHDRAWAL TO RETURN * NQWRSERQ: ID NUMBER OF ASSOCIATED VOLUMN WITHDRAWAL-RETURN FLOW AND * CONCENTRATION RISE TIME SERIES * NQWRMFU: IF NON ZERO ACCOUNT FOR WITHDRAWAL FLOW MOMENTUM FLUX * = 1 MOMENTUM FLUX ON WEST U FACE * = 2 MOMENTUM FLUX ON SOUTH V FACE * = 3 MOMENTUM FLUX ON EAST U FACE * = 4 MOMENTUM FLUX ON NORTH V FACE * NQWRMFD: IF NON ZERO ACCOUNT FOR RETURN FLOW MOMENTUM FLUX * = 1 MOMENTUM FLUX ON WEST U FACE * = 2 MOMENTUM FLUX ON SOUTH V FACE * = 3 MOMENTUM FLUX ON EAST U FACE * = 4 MOMENTUM FLUX ON NORTH V FACE * BQWRMFU: UPSTREAM MOMENTUM FLUX WIDTH (m) * BQWRMFD: DOWNSTREAM MOMENTUM FLUX WIDTH (m) * ANGWRMFD: ANGLE FOR HORIZONTAL FOR RETURN FLOW MOMENTUM FLUX * C33 IWRU JWRU KWRU IWRD JWRD KWRD QWRE NQW_RQ NQWR_U NQWR_D BQWR_U BQWR_D ANG_D ------------------------------------------------------------------------------- C34 TIME CONSTANT WITHDRAWAL AND RETURN CONCENTRATION RISES * * SAL: SALTINITY RISE * TEM: TEMPERATURE RISE * DYE: DYE CONCENTRATION RISE * SFL: SHELLFISH LARVAE CONCENTRATION RISE * TOX#: NTOX TOXIC CONTAMINANT CONCENTRATION RISES * C34 SALT TEMP DYEC SFLC TOX1 ------------------------------------------------------------------------------- C35 TIME CONSTANT WITHDRAWAL AND RETURN CONCENTRATION RISES * * SED#: NSEDC COHESIVE SEDIMENT CONCENTRATION RISE * SND#: NSEDN NON-COHESIVE SEDIMENT CONCENTRATION RISE * C35 SED1 SND1 ------------------------------------------------------------------------------- C36 SEDIMENT INITIALIZATION AND WATER COLUMN/BED REPRESENTATION OPTIONS * DATA REQUIRED IF ISTRAN(6) OR ISTRAN(7) <> 0 * * ISEDINT: 0 FOR CONSTANT INITIAL CONDITIONS * 1 FOR SPATIALLY VARIABLE WATER COLUMN INITIAL CONDITIONS * FROM SEDW.INP AND SNDW.INP * 2 FOR SPATIALLY VARIABLE BED INITIAL CONDITIONS * FROM SEDB.INP AND SNDB.INP * 3 FOR SPATIALLY VARIABLE WATER COL AND BED INITIAL CONDITIONS * ISEDBINT: 0 FOR SPATIALLY VARYING BED INITIAL CONDITIONS IN MASS/AREA * 1 FOR SPATIALLY VARYING BED INITIAL CONDITIONS IN MASS FRACTION * OF TOTAL SEDIMENT MASS (REQUIRES BED LAYER THICKNESS * FILE BEDLAY.INP) * NSEDFLUME: 0 USE THE SEDIMENT TRANSPORT FUNCTIONS IN EFDC MAIN CODE * 98 USE THE SEDZLJ SEDIMENT TRANSPORT SUB-MODEL * 99 USE THE SEDZLJ SEDIMENT TRANSPORT SUB-MODEL WITH TOXICS * * ISMUD: 1 INCLUDE COHESIVE FLUID MUD VISCOUS EFFECTS USING EFDC * FUNCTION CSEDVIS(SEDT) * ISNDWC: NOT USED * * * ISEDVW: 0 FOR CONSTANT OR SIMPLE CONCENTRATION DEPENDENT * COHESIVE SEDIMENT SETTLING VELOCITY * >1 CONCENTRATION AND/OR SHEAR/TURBULENCE DEPENDENT COHESIVE * SEDIMENT SETTLING VELOCITY. VALUE INDICATES OPTION TO BE USED * IN EFDC FUNCTION CSEDSET(SED,SHEAR,ISEDVWC) * 1 HUANG AND MEHTA - LAKE OKEECHOBEE * 2 SHRESTA AND ORLOB - FOR KRONES SAN FRANCISCO BAY DATA * 3 ZIEGLER AND NESBIT - FRESH WATER * 98 LICK FLOCCULATION * 99 LICK FLOCCULATION WITH FLOC DIAMETER ADVECTION * ISNDVW: 0 USE CONSTANT SPECIFIED NON-COHESIVE SED SETTLING VELOCITIES * OR CALCULATE FOR CLASS DIAMETER IF SPECIFIED VALUE IS NEG * >1 FOLLOW OPTION 0 PROCEDURE BUT APPLY HINDERED SETTLING * CORRECTION. VALUE INDICATES OPTION TO BE USED WITH EFDC * FUNCTION CSNDSET(SND,SDEN,ISNDVW) VALUE OF ISNDVW INDICATES * EXPONENTIAL IN CORRECT (1-SDEN(NS)*SND(NS)**ISNDVW * KB: MAXIMUM NUMBER OF BED LAYERS (EXCLUDING ACTIVE LAYER) * ISDTXBUG: 1 TO ACTIVATE SEDIMENT AND TOXICS DIAGNOSTICS * C36 ISEDINT ISEDBINT NSEDFLUME ISMUD ISNDWC ISEDVW ISNDVW KB ISDTXBUG ------------------------------------------------------------------------------- C36A SEDIMENT INITIALIZATION AND WATER COLUMN/BED REPRESENTATION OPTIONS * DATA REQUIRED EVEN IF ISTRAN(6) AND ISTRAN(7) ARE 0 * * ISBEDSTR: 0 USE HYDRODYNAMIC MODEL STRESS FOR SEDIMENT TRANSPORT * 1 SEPARATE GRAIN STRESS FROM TOTAL IN COHESIVE AND NON-COHESIVE COMPONENTS * 2 SEPARATE GRAIN STRESS FROM TOTAL APPLY TO COHESIVE AND NON-COHESIVE SEDS * 3 USE INDEPENDENT LOG LAW ROUGHNESS HEIGHT FOR SEDIMENT TRANSPORT * READ FROM FILE SEDROUGH.INP * 4 SEPARATE GRAIN STRESS FROM TOTAL USING COHESIVE/NON-COHESIVE WEIGHTED * ROUGHNESS AND LOG LAW RESISTANCE (IMPLEMENTED 5/31/05) * 5 SEPARATE GRAIN STRESS FROM TOTAL USING COHESIVE/NON-COHESIVE WEIGHTED * ROUGHNESS AND POWER LAW RESISTANCE (IMPLEMENTED 5/31/05) * ISBSDIAM: 0 USE D50 DIAMETER FOR NON-COHESIVE ROUGHNESS * 1 USE 2*D50 FOR NON-COHESIVE ROUGHNESS * 2 USE D90 FOR NON-COHESIVE ROUGHNESS * 3 USE 2*D90 FOR NON-COHESIVE ROUGHNESS * ISBSDFUF: 1 CORRECT GRAIN STRESS PARTITIONING FOR NON-UNIFORM FLOW EFFECTS * DO NOT USE FOR ISBEDSTR = 4 AND 5 * COEFTSBL: COEFFICIENT SPECIFYING THE HYDRODYNAMIC SMOOTHNESS OF * TURBULENT BOUNDARY LAYER OVER COHESIVE BED IN TERMS OF * EQUIVALENT GRAIN SIZE FOR COHESIVE GRAIN STRESS * CALCULATION, FULLY SMOOTH = 4, FULLY ROUGH = 100. * NOT USED FOR ISBEDSTR = 4 AND 5 * VISMUDST: KINEMATIC VISCOSITY TO USE IN DETERMINING COHESIVE GRAIN STRESS * ISBKERO: 1 FOR BANK EROSION SPECIFIED BY EXTERNAL TIME SERIES * 2 FOR BANK EROSION INTERNALLY CALCULATED BY STABILITY ANALYSIS (Not Active) * C36A ISBEDSTR ISBSDIAM ISBSDFUF COEFTSBL VISMUDST ISBKERO ------------------------------------------------------------------------------- C36B SEDIMENT INITIALIZATION AND WATER COLUMN/BED REPRESENTATION OPTIONS * DATA REQUIRED EVEN IF ISTRAN(6) AND ISTRAN(7) ARE 0 * * ISEDAL: NOT USED * ISNDAL: 1 TO ACTIVATE NON-COHESIVE ARMORING EFFECTS (GARCIA & PARKER) * 2 SAME AS 1 WITH ACTIVE-PARENT LAYER FORMULATION * IALTYP: 0 CONSTANT THICKNESS ARMORING LAYER * 1 CONSTANT TOTAL SEDIMENT MASS ARMORING LAYER * IALSTUP: 1 CREATE ARMORING LAYER FROM INITIAL TOP LAYER AT START UP * ISEDEFF: 1 MODIFY NON-COHESIVE RESUSPENSION TO ACCOUNT FOR COHESIVE EFFECTS * USING MULTIPLICATION FACTOR: EXP(-COEHEFF*FRACTION COHESIVE) * 2 MODIFY NON-COHESIVE CRITICAL STRESS TO ACCOUNT FOR COHESIVE EFFECTS * USING MULT FACTOR: 1+(COEHEFF2-1)*(1-EXP(-COEHEFF*FRACTION COHESIVE)) * HBEDAL: ACTIVE ARMORING LAYER THICKNESS * COEHEFF: COHESIVE EFFECTS COEFFICIENT * COEHEFF2: COHESIVE EFFECTS COEFFICIENT * C36B ISEDAL ISNDAL IALTYP IALSTUP ISEDEFF HBEDAL COEHEFF COEHEFF2 ------------------------------------------------------------------------------- C37 BED MECHANICAL PROPERTIES PARAMETER SET 1 * DATA REQUIRED IF NSED>0, EVEN IF ISTRAN(6) = 0 * * SEDSTEP: SEDIMENT BED INTERACTION TIME STEP (SECONDS) *SETSTART: START TIME FOR BED/WATER COLUMN INTERACTION (DAYS) * IBMECH: 0 TIME INVARIANT CONSTANT BED MECHANICAL PROPERITES (UNIFORM BED ONLY) * 1 SIMPLE CONSOLIDATION CALCULATION WITH CONSTANT COEFFICIENTS * 2 SIMPLE CONSOLIDATION WITH VARIABLE COEFFICIENTS DETERMINED * EFDC FUNCTIONS CSEDCON1,2,3(IBMECH) * 3 COMPLEX CONSOLIDATION WITH VARIABLE COEFFICIENTS DETERMINED * EFDC FUNCTIONS CSEDCON1,2,3(IBMECH). IBMECH > 0 SETS THE * C38 PARAMETER ISEDBINT=1 AND REQUIRES INITIAL CONDITIONS * FILES BEDLAY.INP, BEDBDN.INP AND BEDDDN.IN * 9 TYPE OF CONSOLIDATION VARIES BY CELL WITH IBMECH FOR EACH * DEFINED IN INPUT FILE CONSOLMAP.INP * IMORPH: 0 CONSTANT BED MORPHOLOGY (IBMECH=0, ONLY) * 1 ACTIVE BED MORPHOLOGY: NO WATER ENTRAIN/EXPULSION EFFECTS * 2 ACTIVE BED MORPHOLOGY: WITH WATER ENTRAIN/EXPULSION EFFECTS * HBEDMAX: TOP BED LAYER THICKNESS (m) AT WHICH NEW LAYER IS ADDED OR IF * KBT(I,J)=KB, NEW LAYER ADDED AND LOWEST TWO LAYERS COMBINED * BEDPORC: CONSTANT BED POROSITY (IBMECH=0, OR NSED=0) * ALSO USED AS POROSITY OF DEPOSITIN NON-COHESIVE SEDIMENT * SEDMDMX: MAXIMUM FLUID MUD COHESIVE SEDIMENT CONCENTRATION (MG/L) * SEDMDMN: MINIMUM FLUID MUD COHESIVE SEDIMENT CONCENTRATION (MG/L) * SEDVDRD: VOID RATIO OF DEPOSITING COHESIVE SEDIMENT * SEDVDRM: MINIMUM COHESIVE SEDIMENT BED VOID RATIO (IBMECH > 0) * SEDVDRT: BED CONSOLIDATION RATE CONSTANT (sec) (IBMECH = 1,2), EXP(-DELT/SEDVDRT) * > 0 CONSOLIDATE OVER TIME TO SEDVDRM * = 0 CONSOLIDATE INSTANTANEOUSLY TO SEDVDRM (0.0>=SEDVDRT<=0.0001) * < 0 CONSOLIDATE TO INITIAL VOID RATIOS * C37 SEDSTEP SEDSTART IBMECH IMORPH HBEDMAX BEDPORC SEDMDMX SEDMDMN SEDVDRD SEDVDRM SEDVRDT ------------------------------------------------------------------------------- C38 BED MECHANICAL PROPERTIES PARAMETER SET 2 * DATA REQUIRED IF NSED>0, EVEN IF ISTRAN(6) = 0 * * IBMECHK: 0 FOR HYDRAULIC CONDUCTIVITY, K, FUNCTION K=KO*EXP((E-EO)/EK) * 1 FOR HYD COND/(1+VOID RATIO),K', FUNCTION K'=KO'*EXP((E-EO)/EK) * BMECH1: REFERENCE EFFECTIVE STRESS/WATER SPECIFIC WEIGHT, SEO (m) * IF BMECH1<0 USE INTERNAL FUNCTION, BMECH1,BMECH2,BMECH3 NOT USED * BMECH2: REFERENCE VOID RATIO FOR EFFECTIVE STRESS FUNCTION, EO * BMECH3: VOID RATIO RATE TERM ES IN SE=SEO*EXP(-(E-EO)/ES) * BMECH4: REFERENCE HYDRAULIC CONDUCTIVITY, KO (m/s) * IF BMECH4<0 USE INTERNAL FUNCTION, BMECH1,BMECH2,BMECH3 NOT USED * BMECH5: REFERENCE VOID RATIO FOR HYDRAULIC CONDUCTIVITY, EO * BMECH6: VOID RATIO RATE TERM EK IN (K OR K')=(KO OR KO')*EXP((E-EO)/EK) * C38 IBMECHK BMECH1 BMECH2 BMECH3 BMECH4 BMECH5 BMECH6 ------------------------------------------------------------------------------- C39 COHESIVE SEDIMENT PARAMETER SET 1 REPEAT DATA LINE NSED TIMES * DATA REQUIRED IF NSED>0, EVEN IF ISTRAN(6) = 0 * * SEDO: CONSTANT INITIAL COHESIVE SEDIMENT CONC IN WATER COLUMN * (MG/LITER=GM/M^3) * SEDBO: CONSTANT INITIAL COHESIVE SEDIMENT IN BED PER UNIT AREA * (GM/SQ METER) IE 1CM THICKNESS BED WITH SSG=2.5 AND * N=.6,.5 GIVES SEDBO 1.E4, 1.25E4 * SDEN: SEDIMENT SPEC VOLUME (IE 1/2.25E6 M^3/GM) * SSG: SEDIMENT SPECIFIC GRAVITY * WSEDO: CONSTANT OR REFERENCE SEDIMENT SETTLING VELOCITY * IN FORMULA WSED=WSEDO*( (SED/SEDSN)**SEXP ) * SEDSN: (NOT USED) * SEXP: (NOT USED) * TAUD: BOUNDARY STRESS BELOW WHICH DEPOSITION TAKES PLACE ACCORDING * TO (TAUD-TAU)/TAUD * ISEDSCOR: 1 TO CORRECT BOTTOM LAYER CONCENTRATION TO NEAR BED CONCENTRATION * ISPROBDEP: 0 KRONE PROBABILITY OF DEPOSITION USING COHESIVE GRAIN STRESS * 1 KRONE PROBABILITY OF DEPOSITION USING TOTAL BED STRESS * 2 PARTHENIADES PROBABILITY OF DEPOSITION USING COHESIVE GRAIN STRESS * 3 PARTHENIADES PROBABILITY OF DEPOSITION USING TOTAL BED STRESS * C39 SEDO SEDBO SDEN SSG WSEDO SEDSN SEXP TAUD ISEDSCOR ISPROBDEP ------------------------------------------------------------------------------- C40 COHESIVE SEDIMENT PARAMETER SET 2 REPEAT DATA LINE NSED TIMES * DATA REQUIRED IF NSED>0, EVEN IF ISTRAN(6) = 0 * * IWRSP: 0 USE RESUSPENSION RATE AND CRITICAL STRESS BASED ON PARAMETERS * ON THIS DATA LINE * >0 USE BED PROPERTIES DEPENDEDNT RESUSPENSION RATE AND CRITICAL * STRESS GIVEN BY EFDC FUNCTIONS CSEDRESS,CSEDTAUS,CSEDTAUB * FUNCTION ARGUMENSTS ARE (BDENBED,IWRSP) * 1 HWANG AND MEHTA - LAKE OKEECHOBEE * 2 HAMRICK'S MODIFICATION OF SANFORD AND MAA * 3 SAME AS 2 EXCEPT VOID RATIO OF COHESIVE SEDIMENT FRACTION IS USED * 4 SEDFLUME WITHOUT CRITICAL STRESS * 5 SEDFLUME WITH CRITICAL STRESS * >= 99 SITE SPECIFIC * IWRSPB:0 NO BULK EROSION * 1 USE BULK EROSION CRITICAL STRESS AND RATE IN FUNCTIONS * CSEDTAUB AND CSEDRESSB * WRSPO: REF SURFACE EROSION RATE IN FORMULA * WRSP=WRSP0*( ((TAU-TAUR)/TAUN)**TEXP ) (gm/m^2/sec) * TAUR: BOUNDARY STRESS ABOVE WHICH SURFACE EROSION OCCURS (m/s)**2 * TAUN: (NOT USED, TAUN=TAUR SET IN CODE) * TEXP: EXPONENT OF WRSP=WRSP0*( ((TAU-TAUR)/TAUN)**TEXP ) * VDRRSPO: REFERENCE VOID RATIO FOR CRITICAL STRESS AND RESUSPENSION RATE * IWRSP=2,3 * COSEDHID: COHESIVE SEDIMENT RESUSPENSION HIDING FACTOR TO REDUCE COHESIVE * RESUSPENSION BY FACTOR = (COHESIVE FRACTION OF SEDIMENT)**COSEDHID * C40 IWRSP IWRSPB WRSPO TAUR TAUN TEXP VDRRSPO COSEDHID ------------------------------------------------------------------------------- C41 NON-COHESIVE SEDIMENT PARAMETER SET 1 REPEAT DATA LINE NSND TIMES * DATA REQUIRED IF NSND>0, EVEN IF ISTRAN(7) = 0 * * SNDO: CONSTANT INITIAL NON-COHESIVE SEDIMENT CONC IN WATER COLUMN * (MG/LITER=GM/M^3) * SNDBO: CONSTANT INITIAL NON-COHESIVE SEDIMENT IN BED PER UNIT AREA * (GM/SQ METER) IE 1CM THICKNESS BED WITH SSG=2.5 AND * N=.6,.5 GIVES SNDBO 1.E4, 1.25E4 * SDEN: SEDIMENT SPEC VOLUME (IE 1/2.65E6 M^3/GM) * SSG: SEDIMENT SPECIFIC GRAVITY * SNDDIA: REPRESENTATIVE DIAMETER OF SEDIMENT CLASS (m) * WSNDO: CONSTANT OR REFERENCE SEDIMENT SETTLING VELOCITY * WSNDO < 0, SETTLING VELOCITY INTERNALLY COMPUTED * SNDN: (NOT USED) * SEXP: (NOT USED) * TAUD: (NOT USED) * ISNDSCOR: (NOT USED) * C41 SNDO SNDBO SDEN SSG SNDDIA WSNDO SNDN SEXP TAUD ISNDSCOR ------------------------------------------------------------------------------- C42 NON-COHESIVE SEDIMENT PARAMETER SET 2 REPEAT DATA LINE NSND TIMES * DATA REQUIRED IF NSND>0, EVEN IF ISTRAN(7) = 0 * * ISNDEQ: 0 USER SPECIFIED SPATIALLY AND TEMPORALLY CONSTANT EQUILIBRIUM CONCENTRATION * ISNDEQ: >1 CALCULATE ABOVE BED REFERENCE NON-COHESIVE SEDIMENT * EQUILIBRIUM CONCENTRATION USING EFDC FUNCTION * CSNDEQC(SNDDIA,SSG,WS,TAUR,TAUB,SIGPHI,SNDDMX,IOTP) * WHICH IMPLEMENT FORMULATIONS OF * 1 GARCIA AND PARKER * 2 SMITH AND MCLEAN * 3 VAN RIJN * 4 SEDFLUME WITHOUT CRITICAL STRESS * 5 SEDFLUME WITH CRITICAL STRESS * ISBDLD: 0 BED LOAD PHI FUNCTION IS CONSTANT, SBDLDP * 1 VAN RIJN PHI FUNCTION * 2 MODIFIED ENGULAND-HANSEN * 3 WU, WANG, AND JIA * 4 (NOT USED) * 5 (NOT USED) * TAUR: EQUILIBRIUM CONCENTRATION (g/m**3) * TAUN: Not Used * TCSHIELDS: Not Used * ISLTAUC: Not Used * IBLTAUC: 1 TO IMPLEMENT BEDLOAD ONLY WHEN STRESS EXCEEDS TAUC FOR EACH GRAINSIZE * 2 TO IMPLEMENT BEDLOAD ONLY WHEN STRESS EXCEEDS TAUCD50 * 3 TO USE TAUC FOR NONUNIFORM BEDS, THESE APPLY ONLY TO BED LOAD * FORMULAS NOT EXPLICITLY CONTAINING CRITICAL SHIELDS STRESS SUCH AS E-H * IROUSE: 0 USE TOTAL STRESS FOR CALCULATING ROUSE NUMBER * 1 USE GRAIN STRESS FOR ROUSE NUMBER * ISNDM1: 0 SET BOTH BEDLOAD AND SUSPENDED LOAD FRACTIONS TO 1.0 * 1 SET BEDLOAD FRACTION TO 1. USE BINARY RELATIONSHIP FOR SUSPENDED * 2 SET BEDLOAD FRACTION TO 1, USE LINEAR RELATIONSHIP FOR SUSPENDED * 3 USE BINARY RELATIONSHIP FOR BEDLOAD AND SUSPENDED LOAD * 4 USE LINEAR RELATIONSHIP FOR BEDLOAD AND SUSPENDED LOAD * ISNDM2: 0 USE TOTAL SHEAR VELOCITY IN USTAR/WSET RATIO * 1 USE GRAIN SHEAR VELOCITY IN USTAR/WSET RATIO * RSNDM: VALUE OF USTAR/WSET FOR BINARY SWITCH BETWEEN BEDLOAD AND SUSPENDED LOAD * C42 ISNDEQ ISBDLD TAUR TAUN TCSHIELDS ISLTAUC IBLTAUC IROUSE ISNDM1 ISNDM2 RSNDM ------------------------------------------------------------------------------- C42A NON-COHESIVE SEDIMENT PARAMETER SET 3 (BED LOAD FORMULA PARAMETERS) * DATA REQUIRED IF NSND>0, EVEN IF ISTRAN(7) = 0 * * ISBDLDBC: 0 DISABLE BEDLOAD * 1 ACTIVATE BEDLOAD OPTION. USES SEDBLBC.INP TO SPECIFY CELLS * SBDLDA: ALPHA EXPONENTIAL FOR BED LOAD FORMULA * SBDLDB: BETA EXPONENTIAL FOR BED LOAD FORMULA * SBDLDG1: GAMMA1 CONSTANT FOR BED LOAD FORMULA * SBDLDG2: GAMMA2 CONSTANT FOR BED LOAD FORMULA * SBDLDG3: GAMMA3 CONSTANT FOR BED LOAD FORMULA * SBDLDG4: GAMMA4 CONSTANT FOR BED LOAD FORMULA * SBDLDP: CONSTANT PHI FOR BED LOAD FORMULA * ISBLFUC: BED LOAD FACE FLUX , 0 FOR DOWN WIND PROJECTION,1 FOR DOWN WIND * WITH CORNER CORRECTION,2 FOR CENTERED AVERAGING * BLBSNT: ADVERSE BED SLOPE (POSITIVE VALUE) ACROSS A CELL FACE ABOVE * WHICH NO BED LOAD TRANSPORT CAN OCCUR. NOT ACTIVE FOR BLBSNT=0.0 * C42a IBEDLD SBDLDA SBDLDB SBDLDG1 SBDLDG2 SBDLDG3 SBDLDG4 SBDLDP ISBLFUC BLBSNT ------------------------------------------------------------------------------- C43A TOXIC CONTAMINANT INITIAL CONDITIONS * USER MAY CHANGE ORDER OF MAGNITUDE OF WATER AND SED PHASE TOXIC CONCENTRATIONS * AND PARTIATION COEFFICIENTS ON C44 - C46 BUT MUST BE CONSISTENT UNITS * * NTOXN: TOXIC CONTAMINANT NUMBER ID * ITXINT: 0 FOR SPATIALLY CONSTANT WATER COL AND BED INITIAL CONDITIONS * 1 FOR SPATIALLY VARIABLE WATER COLUMN INITIAL CONDITIONS * 2 FOR SPATIALLY VARIABLE BED INITIAL CONDITIONS * 3 FOR SPATIALLY VARIABLE WATER COL AND BED INITIAL CONDITION * ITXBDUT: SET TO 0 FOR INITIAL BED GIVEN BY TOTAL TOXIC CONCENTRATION (mg/m^3) * SET TO 1 FOR INITIAL BED GIVEN BY TOTAL SEDIMENT NORMALIZED CONCENTRATION (mg/kg) * TOXINTW: INIT WATER COLUNM TOT TOXIC VARIABLE CONCENTRATION (ug/l) * TOXINTB: INIT SED BED TOXIC CONCENTRATION. SEE ITXBDUT FOR UNITS * C43A NTOXN ITXINT ITXBDUT TOXINTW TOXINTB COMMENTS ------------------------------------------------------------------------------- C43B TOXIC KINETIC OPTION FLAGS * * NTOXN: TOXIC CONTAMINANT NUMBER ID * ITOXKIN(1): 0 DO NOT USE BULK DECAY * : 1 USE BULK DECAY FOR WATER COLUMN AND SEDIMENT * ITOXKIN(2): 0 DO NOT USE BIODEGRADATION * : 1 USE BIODEGRADATION FOR WATER COLUMN AND SEDIMENT * ITOXKIN(3): 0 DO NOT USE VOLATILIZATION * : 1 USE VOLATILIZATION FOR RIVER AND LAKE CONDITIONS. LAKE USES O'CONNOR * : 2 USE VOLATILIZATION FOR RIVER AND LAKE CONDITIONS. LAKE USES MACKAY & YEUN * ITOXKIN(4): 0 DO NOT USE PHOTOLYSIS (NOT IMPLEMENTED) * : 1 USE PHOTOLYSIS FOR WATER COLUMN (NOT IMPLEMENTED) * ITOXKIN(5): 0 DO NOT USE HYDROLYSIS (NOT IMPLEMENTED) * : 1 USE HYDROLYSIS FOR WATER COLUMN (NOT IMPLEMENTED) * ITOXKIN(6): 0 DO NOT USE DAUGHTER PRODUCTS (NOT IMPLEMENTED) * : 1 USE DAUGHTER PRODUCTS (NOT IMPLEMENTED) * C43B NTOXN KIN(1) KIN(2) KIN(3) KIN(4) KIN(5) KIN(6) COMMENTS ------------------------------------------------------------------------------- C43C TOXIC TIME STEPS AND VOLATILIZATION SWITCHES * * TOXSTEPW: TIME STEP IN SECONDS FOR TOXIC KINETICS IN WATER COLUMN AND BED * TOXSTEPB: TIME STEP IN SECONDS FOR TOXIC BED PROCESSES OF DIFFUSION AND MIXING * TOX_VEL_MAX: VELOCITY SWITCH FOR VOLATILIZATION APPROACH: LAKE < TOX_VEL_MAX > RIVER * TOX_DEP_MAX: DEPTH SWITCH FOR VOLATILIZATION APPROACH: LAKE > TOX_DEP_MAX < RIVER * ITOXTEMP: TEMPERATURE OVERRIDE IF ISTRAN(2)=0 * 1 - CONSTANT TEMPERATURE = TOXTEMP * >1 - TIME VARYING TEMPERATURE SERIES FROM TSER(ITOXTEMP-1) * TOXTEMP: CONSTANT TEMPERATURE FOR TOXICS CALCULATIONS (DEG C) * C43C STEPW STEPB VEL_MAX DEP_MAX ITOXTEMP TOXTEMP 0 0 0 0 0 0 ------------------------------------------------------------------------------- C43D TOXIC BULK DECAY AND BIODEGRADATION PARAMETERS * * NTOXN: TOXIC CONTAMINANT NUMBER ID * TOX_BLK_KW: BULK DECAY RATE IN THE WATER COLUMN (1/SECOND) * TOX_BLK_KB: BULK DECAY RATE IN THE SEDIMENT BED (1/SECOND) * TOX_BLK_MXD: MAXIMUM DEPTH OF BULK DECAY IN THE SEDIMENT BED (METERS) * TOX_BIO_KW: BIODEGRADATION RATE IN THE WATER COLUMN (1/SECOND) * TOX_BIO_KB: BIODEGRADATION RATE IN THE SEDIMENT BED (1/SECOND) * TOX_BIO_MXD: MAXIMUM DEPTH OF BIODEGRADATION IN THE SEDIMENT BED (METERS) * TOX_BIO_Q10W: Q10 TEMPERATURE ADJUSTMENT COEFFICIENT FOR WATER COLUMN * BIODEGRADATION (dimensionless) * TOX_BIO_Q10B: Q10 TEMPERATURE ADJUSTMENT COEFFICIENT FOR SEDIMENT BED * BIODEGRADATION (dimensionless) * TOX_BIO_TW: REFERENCE TEMPERATURE FOR BIODEGRADATION IN WATER COLUMN (DEG C) * COEFF = TOX_BIO_KW(NT)*TOX_BIO_Q10W(NT)^((TEM(L,K)-TOX_BIO_TB(NT))/10) * TOX_BIO_TB: REFERENCE TEMPERATURE FOR BIODEGRADATION IN SEDIMENT BED (DEG C) * COEFF = TOX_BIO_KB(NT)*TOX_BIO_Q10B(NT)^((TEMB(L)-TOX_BIO_TB(NT))/10) * C43D NTOXN BLK_KW BLK_KB BLK_MXD BIO_KW BIO_KB BIO_MXD Q10W Q10B BIO_TW BIO_TW COMMENTS ------------------------------------------------------------------------------- C43E TOXIC VOLATILIZATION PARAMETERS * * NTOXN: TOXIC CONTAMINANT NUMBER ID * TOX_MW: MOLECULAR WEIGHT (G/MOLE) * TOX_HE: HENRY'S LAW COEFFICIENT FOR THE TOXIC (ATM-M3/MOLE) * TOX_KV_TCOEFF: MASS TRANSFER TEMPERATURE COEFFICIENT (DIMENSIONLESS) * TOX_KV_TCOEFF**(TEM(L,KC)-20) * TOX_ATM: ATMOSPHERIC CONCENTRATION OF TOXIC (micro G/L) * TOX_VOL_ADJ: ADJUSTMENT FACTOR (DIMENSIONLESS) * C43E NTOXN TOX_MW TOX_HE TCOEFF ATM VOL_ADJ COMMENTS ------------------------------------------------------------------------------- C44 TOXIC SORPTION OPTION, DIFFUSION AND MIXING * * NTOXN: TOXIC CONTAMINANT NUMBER ID (1 LINE OF DATA BY DEFAULT) * ISTOC: 0 INORGANIC SOLIDS BASED PARTITIONING ONLY (Kd APPROACH) * 1 FOR DISS AND PART ORGANIC CARBON SORPTION, POC IS SPECIFIED * 2 FOR DISS ORGANIC CARBON SORPTION AND POC FRACTIONALLY * DISTRIBUTED TO INORGANIC SEDIMENT CLASSES * 3 FOR NO DISS ORGANIC CARBON SORPTION AND POC FRACTIONALLY * DISTRIBUTED TO INORGANIC SEDIMENT CLASSES * DIFTOX: DIFFUSION COEFF FOR TOXICANT IN SED BED PORE WATER (m^2/s) * DIFTOXS: DIFFUSION COEFF FOR TOXICANT BETWEEN WATER COLUMN AND * PORE WATER IN TOP LAYER OF THE BED(m^2/s) * > 0.0 INTERPRET AS DIFFUSION COEFFICIENT (m^2/s) * < 0.0 INTERPRET AS FLUX VELOCITY (m/s) * PDIFTOX: PARTICLE MIXING DIFFUSION COEFF FOR TOXICANT IN SED BED (m^2/s) * (if negative use zonal files PARTMIX.INP and PMXMAP.INP) * DPDIFTOX: DEPTH IN BED OVER WHICH PARTICLE MIXING IS ACTIVE (m) * C44 NTOXN ISTOC DIFTOX DIFTOXS PDIFTOX DPDIFTOX ------------------------------------------------------------------------------- C45 TOXIC CONTAMINANT SEDIMENT INTERACTION PARAMETERS * * * NTOXC: TOXIC CONTAMINANT NUMBER ID. NSEDC+NSEDN LINES OF DATA * FOR EACH TOXIC CONTAMINANT (DEFAULT = 2) * NSEDN/NSNDN: FIRST NSED LINES COHESIVE, NEXT NSND LINES NON-COHESIVE. * REPEATED FOR EACH CONTAMINANT * ITXPARW: O FOR NORMAL WC PARTITIONING * 1 FOR SOLIDS DEPENDENT WC PARTITIONING TOXPAR=PARO*(CSED**CONPAR) * TOXPARW: WATER COLUMN PARO (ITXPARW=1) OR EQUIL TOX CON PART COEFF BETWEEN * EACH TOXIC IN WATER AND ASSOCIATED SEDIMENT PHASES (LITERS/MG) * CONPARW: EXPONENT IN TOXPAR=PARO*(CSED**CONPARW) IF ITXPARW=1 * ITXPARB: Not Used * TOXPARB: SEDIMENT BED PARO (ITXPARB=1) OR EQUIL TOX CON PART COEFF BETWEEN * EACH TOXIC IN WATER AND ASSOCIATED SEDIMENT PHASES (LITERS/MG) * CONPARB: Not Used * 1 0.8770 -0.943 0.025 C45 NTOXN NSEDN ITXPARW TOXPARW CONPARW ITXPARB TOXPARB CONPARB ------------------------------------------------------------------------------- C45A TOXIC CONTAMINANT NON-SEDIMENT BASED ORGANIC CARBON (OC) INTERACTION PARAMETERS * * ISTDOCW: 0 CONSTANT DOC IN WATER COLUMN OF STDOCWC (DEFAULT=0.) * 1 TIME CONSTANT, SPATIALLY VARYING DOC IN WATER COLUMN FROM docw.inp * ISTPOCW: 0 CONSTANT POC IN WATER COLUMN OF STPOCWC (DEFAULT=0.) * 1 TIME CONSTANT, SPATIALLY VARYING POC IN WATER COLUMN FROM pocw.inp * 2 TIME CONSTANT, FPOC IN WATER COLUMN, SEE C45C * 3 TIME CONSTANT, SPATIALLY VARYING FPOC IN WATER COLUMN FORM fpocw.inp * 4 FUNTIONAL SPECIFICATION OF TIME AND SPATIALLY VARYING * FPOC IN WATER COLUMN * ISTDOCB: 0 CONSTANT DOC IN BED OF STDOCBC (DEFAULT=0.) * 1 TIME CONSTANT, SPATIALLY VARYING DOC IN BED FROM docb.inp * ISTPOCB: 0 CONSTANT POC IN BED OF STPOCBC (DEFAULT=0.) * 1 TIME CONSTANT, SPATIALLY VARYING POC IN BED FROM pocb.inp * 2 TIME CONSTANT, FPOC IN BED, SEE C45D * 3 TIME CONSTANT, SPATIALLY VARYING FPOC IN BED FROM fpocb.inp * 4 FUNTIONAL SPECIFICATION OF TIME AND SPATIALLY VARYING * FPOC IN BED, REQUIRES CODE MODIFICATION FOR EACH APPLICATION (ADVANCED) * STDOCWC: CONSTANT WATER COLUMN DOC (ISTDOCW=0) * STPOCWC: CONSTANT WATER COLUMN POC (ISTPOCW=0) * STDOCBC: CONSTANT BED DOC (ISTDOCB=0) * STPOCBC: CONSTANT BED POC (ISTPOCB=0) * C45A ISTDOCW ISTPOCW ISTDOCB ISTPOCB STDOCWC STPOCWC STDOCBC STPOCBC ------------------------------------------------------------------------------- C45B TOXIC CONTAMINANT NON-SEDIMENT BASED ORGANIC CARBON (OC) INTERACTION PARAMETERS * * * NTOXC: TOXIC CONTAMINANT NUMBER ID. FOR EACH TOXIC CONTAMINANT * NOC : FIRST LINE FOR DISSOLVED ORGANIC CARBON (DOC) * SECOND LINE FOR PARTICULATE ORGANIC CARBON (POC) * REPEATED FOR EACH CONTAMINANT * ITXPARWC: O FOR NORMAL WC PARTITIONING * 1 FOR SOLIDS DEPENDENT WC PARTITIONING TOXPAR=PARO*(CSED**CONPAR) * TOXPARWC: WATER COLUMN PARO (ITXPARW=1) OR EQUIL TOX CON PART COEFF BETWEEN * EACH TOXIC IN WATER AND ASSOCIATED SEDIMENT PHASES (liters/mg) * CONPARWC: EXPONENT IN TOXPAR=PARO*(CSED**CONPARW) IF ITXPARW=1 * ITXPARBC: Not Used * TOXPARBC: SEDIMENT BED PARO (ITXPARB=1) OR EQUIL TOX CON PART COEFF BETWEEN * EACH TOXIC IN WATER AND ASSOCIATED SEDIMENT PHASES (liters/mg) * CONPARBC: Not Used * 1 0.8770 -0.943 0.025 C45B NTOXN NOC ITXPARWC TOXPARWC CONPARWC ITXPARBC TOXPARBC CONPARBC *CARBON* ------------------------------------------------------------------------------- C45C TOXIC CONTAMINANT POC FRACTIONAL DISTRIBUTIONS IN WATER COLUMN * 1 LINE OF DATA REQUIRED EVEN IT ISTRAN(5) IS 0. DATA USED WHEN * ISTOC(NT)=1 OR 2 * * NTOXN: TOXIC CONTAMINANT NUMBER ID. NSEDC+NSEDN 1 LINE OF DATA * FOR EACH TOXIC CONTAMINANT (DEFAULT = 2) * FPOCSED1-NSED: FRACTION OF OC ASSOCIATED WITH SED CLASSES 1,NSED * FPOCSND1-NSND: FRACTION OF OC ASSOCIATED WITH SND CLASSES 1,NSND * C45C NTOXN ------------------------------------------------------------------------------- C45D TOXIC CONTAMINANT POC FRACTIONAL DISTRIBUTIONS IN SEDIMENT BED * 1 LINE OF DATA REQUIRED EVEN IT ISTRAN(5) IS 0. DATA USED WHEN * ISTOC(NT)=1 OR 2 * * NTOXN: TOXIC CONTAMINANT NUMBER ID. NSEDC+NSEDN 1 LINE OF DATA * FOR EACH TOXIC CONTAMINANT (DEFAULT = 2) * FPOCSED1-NSED: FRACTION OF OC ASSOCIATED WITH SED CLASSES 1,NSED * FPOCSND1-NSND: FRACTION OF OC ASSOCIATED WITH SND CLASSES 1,NSND * C45D NTOXN ------------------------------------------------------------------------------- C46 BUOYANCY, TEMPERATURE, DYE DATA AND CONCENTRATION BC DATA * * BSC: BUOYANCY INFLUENCE COEFFICIENT 0 TO 1, BSC=1. FOR REAL PHYSICS * TEMO: REFERENCE, INITIAL, EQUILIBRUM AND/OR ISOTHERMAL TEMP IN DEG C * HEQT: EQUILIBRUM TEMPERTURE TRANSFER COEFFICIENT M/sec * ISBEDTEMI: 0 READ INITIAL BED TEMPERATURE FROM TEMPB.INP * 1 INITIALIZE AT START OF COLD RUN * KBH: NOT USED * RKDYE: FIRST ORDER DECAY RATE FOR DYE VARIABLE IN 1/sec * NCBS: NUMBER OF CONCENTRATION BOUNDARY CONDITIONS ON SOUTH OPEN * BOUNDARIES * NCBW: NUMBER OF CONCENTRATION BOUNDARY CONDITIONS ON WEST OPEN * BOUNDARIES * NCBE: NUMBER OF CONCENTRATION BOUNDARY CONDITIONS ON EAST OPEN * BOUNDARIES * NCBN: NUMBER OF CONCENTRATION BOUNDARY CONDITIONS ON NORTH OPEN * BOUNDARIES * C46 BSC TEMO HEQT ISBEDTEMI KBH RKDYE NCBS NCBW NCBE NCBN 1.00 20.00 1.000E-06 0 0 0.000E+00 0 0 0 0 ------------------------------------------------------------------------------- C46A ICE EFFECTS C ISICE: 0 ICE IMPACTS NOT SIMULATED. AUTOMATICALLY LIMITS ASER.INP DRY BULB TO > 0.0 1 READ ICE THICKNESS FROM FILE ISER.INP (LEGACY ICECOVER.INP) 2 SPECIFIED ON/OFF DATES FOR ICE (ENTIRE MODEL) 3 CALCULATION COUPLED WITH HEAT MODEL 4 CALCULATION COUPLED WITH HEAT MODEL AND FRAZIL TRANSPORT NISER: NUMBER OF ICE TIME SERIES FOR ISICE=1 TEMPICE: WATER TEMPERATURE AT WATER ICE INTERFACE FOR ISICE <= 2 CDICE: DRAG COEFFICIENT BETWEEN ICE/WATER (DEFAULT = 0.001) ICETHMX: MAXIMUM ICE COVER THICKNESS FOR ISICE>2, METERS RICETHK0: ICE THICKNESS FOR ISICE=2 (CONSTANT, METERS) C C46A ISICE NISER TEMPICE CDICE ICETHMX RICETHK0 0 0 .001 .001 1 0 ------------------------------------------------------------------------------- C46C ATMOSPHERIC LOCATION AND WIND FUNCTION COEFFICIENTS * * SOLAR_LNG = LONGITUDE TO BE USED TO COMPUTE SOLAR RADIATION (Decimal degree) * SOLAR_LAT = LATITUDE TO BE USED TO COMPUTE SOLAR RADIATION (Decimal degree) * COMPUTESR = OVERRIDE SOLAR RADIATION IN ASER.INP WITH COMPUTED [.TRUE/.FALSE.] * USESHADE = USE CELL SPECIFIC SHADE VALUES USING SHADE.INP [.TRUE/.FALSE.] * IEVAP = EVAPORATION OPTION FOR WATER FLUX ONLY (ALWAYS USED FOR HEAT EXCHANGE) * 0 - DO NOT INCLUDE IN WATER BUDGET * 1 - USE SPECIFIED EVAP FROM ASER.INP * 2 - COMPUTE EVAP USING ORIGINAL EFDC EQUATION * 3-10 - COMPUTE USING WIND FUNCTION USING WINDFA, WINDFB, WINDFC * 11 - COMPUTE EVAP USING RYAN-HARLEMAN * 12 - COMPUTE EVAP USING ARIFIN ET AL. (2016) * WINDFA = WIND FUNCTION FACTOR A FUNCTION = A + B*WIND2M + C*WIND2m^2 * WINDFB = WIND FUNCTION FACTOR B UNITS: W/M^2/millibar * WINDFC = WIND FUNCTION FACTOR C C46C SOLAR_LNG SOLAR_LAT COMPUTESR USESHADE IEVAP WINDFA WINDFB WINDFC 129.10250 35.14500 .false. .false. 0 6.90060 0.00000 0.34503 ------------------------------------------------------------------------------- C47 LOCATION OF CONC BC'S ON SOUTH BOUNDARIES * * ICBS: I CELL INDEX * JCBS: J CELL INDEX * NTSCRS: NUMBER OF TIME STEPS TO RECOVER SPECIFIED VALUES ON CHANGE * TO INFLOW FROM OUTFLOW * NSSERS: SOUTH BOUNDARY CELL SALINITY TIME SERIES ID NUMBER * NTSERS: SOUTH BOUNDARY CELL TEMPERATURE TIME SERIES ID NUMBER * NDSERS: SOUTH BOUNDARY CELL DYE CONC TIME SERIES ID NUMBER * NSFSERS: SOUTH BOUNDARY CELL SHELLFISH LARVAE TIME SERIES ID NUMBER * NTXSERS: SOUTH BOUNDARY CELL TOXIC CONTAMINANT CONC TIME SERIES ID NUM. * NSDSERS: SOUTH BOUNDARY CELL COHESIVE SED CONC TIME SERIES ID NUMBER * NSNSERS: SOUTH BOUNDARY CELL NON-COHESIVE SED CONC TIME SERIES ID NUMBER C C47 IBBS JBBS NTSCRS NSSERS NTSERS NDSERS NSFSERS NTXSERS NSDSERS NSNSERS ------------------------------------------------------------------------------- C48 TIME CONSTANT BOTTOM CONC ON SOUTH CONC BOUNDARIES * * SAL: ULTIMATE INFLOWING BOTTOM LAYER SALINITY * TEM: ULTIMATE INFLOWING BOTTOM LAYER TEMPERATURE * DYE: ULTIMATE INFLOWING BOTTOM LAYER DYE CONCENTRATION * SFL: ULTIMATE INFLOWING BOTTOM LAYER SHELLFISH LARVAE CONCENTRATION * TOX: NTOX ULTIMATE INFLOWING BOTTOM LAYER TOXIC CONTAMINANT * CONCENTRATIONS NTOX VALUES TOX(N), N=1,NTOX * C48 SAL TEM DYE SFL ------------------------------------------------------------------------------- C49 TIME CONSTANT BOTTOM CONC ON SOUTH CONC BOUNDARIES * * SED: NSED ULTIMATE INFLOWING BOTTOM LAYER COHESIVE SEDIMENT * CONCENTRATIONS FIRST NSED VALUES SED(N), N=1,NSND * SND: NSND ULTIMATE INFLOWING BOTTOM LAYER NON-COHESIVE SEDIMENT * CONCENTRATIONS LAST NSND VALUES SND(N), N=1,NSND * C49 SED1 SND1 ------------------------------------------------------------------------------ C50 TIME CONSTANT SURFACE CONC ON SOUTH CONC BOUNDARIES * * SAL: ULTIMATE INFLOWING SURFAC LAYER SALINITY * TEM: ULTIMATE INFLOWING SURFAC LAYER TEMPERATURE * DYE: ULTIMATE INFLOWING SURFAC LAYER DYE CONCENTRATION * SFL: ULTIMATE INFLOWING SURFAC LAYER SHELLFISH LARVAE CONCENTRATION * TOX: NTOX ULTIMATE INFLOWING SURFAC LAYER TOXIC CONTAMINANT * CONCENTRATIONS NTOX VALUES TOX(N), N=1,NTOX * C50 SAL TEM DYE SFL ------------------------------------------------------------------------------- C51 TIME CONSTANT SURFACE CONC ON SOUTH CONC BOUNDARIES * * SED: NSED ULTIMATE INFLOWING SURFAC LAYER COHESIVE SEDIMENT * CONCENTRATIONS FIRST NSED VALUES SED(N), N=1,NSND * SND: NSND ULTIMATE INFLOWING SURFAC LAYER NON-COHESIVE SEDIMENT * CONCENTRATIONS LAST NSND VALUES SND(N), N=1,NSND * C51 SED1 SND1 ------------------------------------------------------------------------------- C52 LOCATION OF CONC BC'S ON WEST BOUNDARIES AND SERIES IDENTIFIERS * * ICBW: I CELL INDEX * JCBW: J CELL INDEX * NTSCRW: NUMBER OF TIME STEPS TO RECOVER SPECIFIED VALUES ON CHANGE * TO INFLOW FROM OUTFLOW * NSSERW: WEST BOUNDARY CELL SALINITY TIME SERIES ID NUMBER * NTSERW: WEST BOUNDARY CELL TEMPERATURE TIME SERIES ID NUMBER * NDSERW: WEST BOUNDARY CELL DYE CONC TIME SERIES ID NUMBER * NSFSERW: WEST BOUNDARY CELL SHELLFISH LARVAE TIME SERIES ID NUMBER * NTXSERW: WEST BOUNDARY CELL TOXIC CONTAMINANT CONC TIME SERIES ID NUM. * NSDSERW: WEST BOUNDARY CELL COHESIVE SED CONC TIME SERIES ID NUMBER * NSNSERW: WEST BOUNDARY CELL NON-COHESIVE SED CONC TIME SERIES ID NUMBER * C52 IBBW JBBW NTSCRW NSSERW NTSERW NDSERW NSFSERW NTXSERW NSDSERW NSNSERW ------------------------------------------------------------------------------- C53 TIME CONSTANT BOTTOM CONC ON WEST CONC BOUNDARIES * * SAL: ULTIMATE INFLOWING BOTTOM LAYER SALINITY * TEM: ULTIMATE INFLOWING BOTTOM LAYER TEMPERATURE * DYE: ULTIMATE INFLOWING BOTTOM LAYER DYE CONCENTRATION * SFL: ULTIMATE INFLOWING BOTTOM LAYER SHELLFISH LARVAE CONCENTRATION * TOX: NTOX ULTIMATE INFLOWING BOTTOM LAYER TOXIC CONTAMINANT * CONCENTRATIONS NTOX VALUES TOX(N), N=1,NTOX * C53 SAL TEM DYE SFL ------------------------------------------------------------------------------- C54 TIME CONSTANT BOTTOM CONC ON WEST CONC BOUNDARIES * * SED: NSED ULTIMATE INFLOWING BOTTOM LAYER COHESIVE SEDIMENT * CONCENTRATIONS FIRST NSED VALUES SED(N), N=1,NSND * SND: NSND ULTIMATE INFLOWING BOTTOM LAYER NON-COHESIVE SEDIMENT * CONCENTRATIONS LAST NSND VALUES SND(N), N=1,NSND * C54 SED1 SND1 ------------------------------------------------------------------------------- C55 TIME CONSTANT SURFACE CONC ON WEST CONC BOUNDARIES * * SAL: ULTIMATE INFLOWING SURFAC LAYER SALINITY * TEM: ULTIMATE INFLOWING SURFAC LAYER TEMPERATURE * DYE: ULTIMATE INFLOWING SURFAC LAYER DYE CONCENTRATION * SFL: ULTIMATE INFLOWING SURFAC LAYER SHELLFISH LARVAE CONCENTRATION * TOX: NTOX ULTIMATE INFLOWING SURFAC LAYER TOXIC CONTAMINANT * CONCENTRATIONS NTOX VALUES TOX(N), N=1,NTOX * C55 SAL TEM DYE SFL ------------------------------------------------------------------------------- C56 TIME CONSTANT SURFACE CONC ON WEST CONC BOUNDARIES * * SED: NSED ULTIMATE INFLOWING SURFAC LAYER COHESIVE SEDIMENT * CONCENTRATIONS FIRST NSED VALUES SED(N), N=1,NSND * SND: NSND ULTIMATE INFLOWING SURFAC LAYER NON-COHESIVE SEDIMENT * CONCENTRATIONS LAST NSND VALUES SND(N), N=1,NSND * C56 SED1 SND1 ------------------------------------------------------------------------------- C57 LOCATION OF CONC BC'S ON EAST BOUNDARIES AND SERIES IDENTIFIERS * * ICBE: I CELL INDEX * JCBE: J CELL INDEX * NTSCRE: NUMBER OF TIME STEPS TO RECOVER SPECIFIED VALUES ON CHANGE * TO INFLOW FROM OUTFLOW * NSSERE: EAST BOUNDARY CELL SALINITY TIME SERIES ID NUMBER * NTSERE: EAST BOUNDARY CELL TEMPERATURE TIME SERIES ID NUMBER * NDSERE: EAST BOUNDARY CELL DYE CONC TIME SERIES ID NUMBER * NSFSERE: EAST BOUNDARY CELL SHELLFISH LARVAE TIME SERIES ID NUMBER * NTXSERE: EAST BOUNDARY CELL TOXIC CONTAMINANT CONC TIME SERIES ID NUM. * NSDSERE: EAST BOUNDARY CELL COHESIVE SED CONC TIME SERIES ID NUMBER * NSNSERE: EAST BOUNDARY CELL NON-COHESIVE SED CONC TIME SERIES ID NUMBER * C57 IBBE JBBE NTSCRE NSSERE NTSERE NDSERE NSFSERE NTXSERE NSDSERE NSNSERE ------------------------------------------------------------------------------- C58 TIME CONSTANT BOTTOM CONC ON EAST CONC BOUNDARIES * * SAL: ULTIMATE INFLOWING BOTTOM LAYER SALINITY * TEM: ULTIMATE INFLOWING BOTTOM LAYER TEMPERATURE * DYE: ULTIMATE INFLOWING BOTTOM LAYER DYE CONCENTRATION * SFL: ULTIMATE INFLOWING BOTTOM LAYER SHELLFISH LARVAE CONCENTRATION * TOX: NTOX ULTIMATE INFLOWING BOTTOM LAYER TOXIC CONTAMINANT * CONCENTRATIONS NTOX VALUES TOX(N), N=1,NTOX * C58 SAL TEM DYE SFL ------------------------------------------------------------------------------- C59 TIME CONSTANT BOTTOM CONC ON EAST CONC BOUNDARIES * * SED: NSED ULTIMATE INFLOWING BOTTOM LAYER COHESIVE SEDIMENT * CONCENTRATIONS FIRST NSED VALUES SED(N), N=1,NSND * SND: NSND ULTIMATE INFLOWING BOTTOM LAYER NON-COHESIVE SEDIMENT * CONCENTRATIONS LAST NSND VALUES SND(N), N=1,NSND * C59 SED1 SND1 ------------------------------------------------------------------------------- C60 TIME CONSTANT SURFACE CONC ON EAST CONC BOUNDARIES * * SAL: ULTIMATE INFLOWING SURFAC LAYER SALINITY * TEM: ULTIMATE INFLOWING SURFAC LAYER TEMPERATURE * DYE: ULTIMATE INFLOWING SURFAC LAYER DYE CONCENTRATION * SFL: ULTIMATE INFLOWING SURFAC LAYER SHELLFISH LARVAE CONCENTRATION * TOX: NTOX ULTIMATE INFLOWING SURFAC LAYER TOXIC CONTAMINANT * CONCENTRATIONS NTOX VALUES TOX(N), N=1,NTOX * C60 SAL TEM DYE SFL ------------------------------------------------------------------------------- C61 TIME CONSTANT SURFACE CONC ON EAST CONC BOUNDARIES * * SED: NSED ULTIMATE INFLOWING SURFAC LAYER COHESIVE SEDIMENT * CONCENTRATIONS FIRST NSED VALUES SED(N), N=1,NSND * SND: NSND ULTIMATE INFLOWING SURFAC LAYER NON-COHESIVE SEDIMENT * CONCENTRATIONS LAST NSND VALUES SND(N), N=1,NSND * C61 SED1 SND1 ------------------------------------------------------------------------------- C62 LOCATION OF CONC BC'S ON NORTH BOUNDARIES AND SERIES IDENTIFIERS * * ICBN: I CELL INDEX * JCBN: J CELL INDEX * NTSCRN: NUMBER OF TIME STEPS TO RECOVER SPECIFIED VALUES ON CHANGE * TO INFLOW FROM OUTFLOW * NSSERN: NORTH BOUNDARY CELL SALINITY TIME SERIES ID NUMBER * NTSERN: NORTH BOUNDARY CELL TEMPERATURE TIME SERIES ID NUMBER * NDSERN: NORTH BOUNDARY CELL DYE CONC TIME SERIES ID NUMBER * NSFSERN: NORTH BOUNDARY CELL SHELLFISH LARVAE TIME SERIES ID NUMBER * NTXSERN: NORTH BOUNDARY CELL TOXIC CONTAMINANT CONC TIME SERIES ID NUM. * NSDSERN: NORTH BOUNDARY CELL COHESIVE SED CONC TIME SERIES ID NUMBER * NSNSERN: NORTH BOUNDARY CELL NON-COHESIVE SED CONC TIME SERIES ID NUMBER * C62 IBBN JBBN NTSCRN NSSERN NTSERN NDSERN NSFSERN NTXSERN NSDSERN NSNSERN ------------------------------------------------------------------------------- C63 TIME CONSTANT BOTTOM CONC ON NORTH CONC BOUNDARIES * * SAL: ULTIMATE INFLOWING BOTTOM LAYER SALINITY * TEM: ULTIMATE INFLOWING BOTTOM LAYER TEMPERATURE * DYE: ULTIMATE INFLOWING BOTTOM LAYER DYE CONCENTRATION * SFL: ULTIMATE INFLOWING BOTTOM LAYER SHELLFISH LARVAE CONCENTRATION * TOX: NTOX ULTIMATE INFLOWING BOTTOM LAYER TOXIC CONTAMINANT * CONCENTRATIONS NTOX VALUES TOX(N), N=1,NTOX * C63 SAL TEM DYE SFL ------------------------------------------------------------------------------- C64 TIME CONSTANT BOTTOM CONC ON NORTH CONC BOUNDARIES * * SED: NSED ULTIMATE INFLOWING BOTTOM LAYER COHESIVE SEDIMENT * CONCENTRATIONS FIRST NSED VALUES SED(N), N=1,NSND * SND: NSND ULTIMATE INFLOWING BOTTOM LAYER NON-COHESIVE SEDIMENT * CONCENTRATIONS LAST NSND VALUES SND(N), N=1,NSND * C64 SED1 SND1 ------------------------------------------------------------------------------- C65 TIME CONSTANT SURFACE CONC ON NORTH CONC BOUNDARIES * * SAL: ULTIMATE INFLOWING SURFAC LAYER SALINITY * TEM: ULTIMATE INFLOWING SURFAC LAYER TEMPERATURE * DYE: ULTIMATE INFLOWING SURFAC LAYER DYE CONCENTRATION * SFL: ULTIMATE INFLOWING SURFAC LAYER SHELLFISH LARVAE CONCENTRATION * TOX: NTOX ULTIMATE INFLOWING SURFAC LAYER TOXIC CONTAMINANT * CONCENTRATIONS NTOX VALUES TOX(N), N=1,NTOX * C65 SAL TEM DYE SFL ------------------------------------------------------------------------------- C66 TIME CONSTANT SURFACE CONC ON NORTH CONC BOUNDARIES * * SED: NSED ULTIMATE INFLOWING SURFAC LAYER COHESIVE SEDIMENT * CONCENTRATIONS FIRST NSED VALUES SED(N), N=1,NSND * SND: NSND ULTIMATE INFLOWING SURFAC LAYER NON-COHESIVE SEDIMENT * CONCENTRATIONS LAST NSND VALUES SND(N), N=1,NSND * C66 SED1 SND1 ------------------------------------------------------------------------------- C66A CONCENTRATION DATA ASSIMILATION * * NLCDA: NUMBER OF HORIZONTAL LOCATIONS FOR DATA ASSIMILATION * TSCDA: WEIGHTING FACTOR, 0 to 1, 1 = FULL ASSIMILATION * ISCDA: 1 FOR CONCENTRATION DATA ASSIMILATION VALUES (NC=1,7) * C66A NLCDA TSCDA ISCDA 0 0 0 0 0 0 0 0 0 ------------------------------------------------------------------------------- C66B CONCENTRATION DATA ASSIMILATION * * ITPCDA: 0 ASSIMILATE DATA FROM TIME SERIES * 1 ASSIMIATED DATA FROM ANOTHER CELL IN GRID * ICDA: I INDEX OF CELL ASSIMILATING DATA * JCDA: J INDEX OF CELL ASSIMILATING DATA * ICCDA: I INDEX OF CELL PROVIDING DATA, ITPCDA=1 * JCCDA: J INDEX OF CELL PROVIDING DATA, ITPCDA=1 * NCSERA: ID OF TIME SERIES PROVIDING DATA * C66B ITPCDA ICDA JCDA ICCDA JCCDA NS NT ND NSF NTX NSD NSN ------------------------------------------------------------------------------- C67 DRIFTER DATA (FIRST 4 PARAMETER FOR SUB DRIFER, SECOND 6 FOR SUB LAGRES) * * ISPD: 1 TO ACTIVE SIMULTANEOUS RELEASE AND LAGRANGIAN TRANSPORT OF * NEUTRALLY BUOYANT PARTICLE DRIFTERS AT LOCATIONS INPUT ON C68 * 2 TO ACTIVATE DS-INTERNATIONAL'S LPT DRIFTER COMPUTATIONS (DRIFTER.INP) * NPD: NUMBER OF PARTICLE DIRIFERS * NPDRT: TIME STEP AT WHICH PARTICLES ARE RELEASED * NWPD: NUMBER OF TIME STEPS BETWEEN WRITING TO TRACKING FILE * DRIFTER.OUT * ISLRPD: 1 TO ACTIVATE CALCULATION OF LAGRANGIAN MEAN VELOCITY OVER TIME * INTERVAL TREF AND SPATIAL INTERVAL ILRPD10 EXPLORER BINARY FORMAT, OUTPUT FREQUENCY * NPBPH: NOT USED * ISRBPH: NOT USED * ISBBDN: NOT USED * ISBLAY: NOT USED * ISBPOR: NOT USED * SBSED: NOT USED * * * ISBSED: NOT USED * * * ISBVDR: NOT USED * ISBARD: NOT USED * * C71A ISBPH ISBEXP NPBPH ISRBPH ISBBDN ISBLAY ISBPOR ISBSED ISBSND ISBVDR ISBARD 0 0 0 0 0 0 0 0 0 0 0 ------------------------------------------------------------------------------- C71B FOOD CHAIN MODEL OUTPUT CONTROL * * ISFDCH: 1 TO WRITE OUTPUT FOR HOUSATONIC RIVER FOOD CHAIN MODEL * NFDCHZ: NUMBER OF SPATIAL ZONES * HBFDCH: AVERAGING DEPTH FOR TOP PORTION OF BED (METERS) * TFCAVG: TIME AVERAGING INTERVAL FOR FOOD CHAIN OUTPUT (SECONDS) * C71B ISFDCH NFDCHZ HBFDCH TFCAVG 0 5 .1524 86400 ------------------------------------------------------------------------------- C72 CONTROLS FOR EFDC_EXPLORER LINKAGE AND SURFACE ELEVATION RESIDUAL OUTPUT * * ISPPH: 1 TO WRITE FILE FOR EFDC_EXPLORER LINKAGE * 2 WRITE ONLY FOR THE FIRST AND LAST REFERENCE TIME PERIOD * 100 TO ACTIVATE THE HIGH FREQUENCY DOMAIN OUTPUT READING SNAPSHOT.INP * NPPPH: NUMBER OF WRITES PER REFERENCE TIME PERIOD * ISRPPH: 1 TO WRITE FILE FOR RESIDUAL SURFACE ELEVATION CONTOURNG IN * HORIZONTAL PLANE * IPPHXY: NOT USED * * * C72 ISPPH NPPPH ISRPPH IPPHXY 1 144 1 3 ------------------------------------------------------------------------------- C73 CONTROLS FOR HORIZONTAL PLANE RESIDUAL VELOCITY VECTOR PLOTTING * * ISVPH: NOT USED * NOT USED * NPVPH: NOT USED * ISRVPH: 1 TO WRITE FILE FOR RESIDUAL VELOCITY PLOTTIN IN * HORIZONTAL PLANE * IVPHXY: NOT USED * NOT USED * NOT USED * NOT USED * C73 ISVPH NPVPH ISRVPH IVPHXY 1 144 1 3 ------------------------------------------------------------------------------- C74 NOT USED * * ISECSPV: NOT USED * * NPSPV: NOT USED * ISSPV: NOT USED * * ISRSPV: NOT USED * ISHPLTV: NOT USED * * * C74 ISECSPV NPSPV ISSPV ISRSPV ISHPLTV 0 0 0 0 0 !SAL 0 0 0 0 0 !TEM 0 0 0 0 0 !DYE 0 0 0 0 0 !SFL 0 0 0 0 0 !TOX 0 0 0 0 0 !SED 0 0 0 0 0 !SND ------------------------------------------------------------------------------- C75 NOT USED * * ISECSPV: NOT USED * NIJSPV: NOT USED * SEC ID: NOT USED * C75 ISECSPV NIJSPV SEC ID ------------------------------------------------------------------------------- C76 NOT USED * * ISECSPV: NOT USED * ISPV: NOT USED * JSPV: NOT USED * C76 ISECSPV ISPV JSPV ------------------------------------------------------------------------------- C77 NOT USED * * ISECVPV: NOT USED * * NPVPV: NOT USED * ISVPV: NOT USED * * ISRSPV: NOT USED * C77 ISECVPV NPVPV ISVPV ISRSPV 0 1 0 0 ------------------------------------------------------------------------------- C78 NOT USED * * ISCEVPV: NOT USED * NIJVPV: NOT USED * ANGVPV: NOT USED * SEC ID: NOT USED * C78 ISECVPV NIJVPV ANGVPV SEC ID ------------------------------------------------------------------------------- C79 NOT USED * * ISECVPV: NOT USED * IVPV: NOT USED * JVPV: NOT USED * C79 ISECVPV IVPV JVPV ------------------------------------------------------------------------------- C80 CONTROLS FOR 3D FIELD OUTPUT * * IS3DO: 1 TO WRITE TO 3D ASCI INTEGER FORMAT FILES, JS3DVAR.LE.2 SEE| * 1 TO WRITE TO 3D ASCI FLOAT POINT FORMAT FILES, JS3DVAR.EQ.3 C57| * 2 TO WRITE TO 3D CHARACTER ARRAY FORMAT FILES (NOT ACTIVE) * 3 TO WRITE TO 3D HDF IMAGE FORMAT FILES (NOT ACTIVE) * 4 TO WRITE TO 3D HDF FLOATING POINT FORMAT FILES (NOT ACTIVE) * ISR3DO: SAME AS IS3DO EXCEPT FOR RESIDUAL VARIABLES * NP3DO: NUMBER OF WRITES PER LAST REF TIME PERIOD FOR INST VARIABLES * KPC: NUMBER OF UNSTRETCHED PHYSICAL VERTICAL LAYERS * NWGG: IF NWGG IS GREATER THAN ZERO, NWGG DEFINES THE NUMBER OF !2877| * WATER CELLS IN CARTESIAN 3D GRAPHICS GRID OVERLAY OF THE * CURVILINEAR GRID. FOR NWGG>0 AND EFDC RUNS ON A CURVILINEAR * GRID, I3DMI,I3DMA,J3DMI,J3DMA REFER TO CELL INDICES ON THE * ON THE CARTESIAN GRAPHICS GRID OVERLAY DEFINED BY FILE * GCELL.INP. THE FILE GCELL.INP IS NOT USED BY EFDC, BUT BY * THE COMPANION GRID GENERATION CODE GEFDC.F. INFORMATION * DEFINING THE OVERLAY IS READ BY EFDC.F FROM THE FILE * GCELLMP.INP. IF NWGG EQUALS 0, I3DMI,I3DMA,J3DMI,J3DMA REFER * TO INDICES ON THE EFDC GRID DEFINED BY CELL.INP. * ACTIVATION OF THE REWRITE OPTION I3DRW=1 WRITES TO THE FULL * GRID DEFINED BY CELL.INP AS IF CELL.INP DEFINES A CARTESIAN * GRID. IF NWGG EQ 0 AND THE EFDC COMP GRID IS CO, THE REWRITE * OPTION IS NOT RECOMMENDED AND A POST PROCESSOR SHOULD BE USED * TO TRANSFER THE SHORT FORM, I3DRW=0, OUTPUT TO AN APPROPRIATE * FORMAT FOR VISUALIZATION. CONTACT DEVELOPER FOR MORE DETAILS * I3DMI: MINIMUM OR BEGINNING I INDEX FOR 3D ARRAY OUTPUT * I3DMA: MAXIMUM OR ENDING I INDEX FOR 3D ARRAY OUTPUT * J3DMI: MINIMUM OR BEGINNING J INDEX FOR 3D ARRAY OUTPUT * J3DMA: MAXIMUM OR ENDING J INDEX FOR 3D ARRAY OUTPUT * I3DRW: 0 FILES WRITTEN FOR ACTIVE CO WATER CELLS ONLY * 1 REWRITE FILES TO CORRECT ORIENTATION DEFINED BY GCELL.INP * AND GCELLMP.INP FOR CO WITH NWGG.GT.O OR BY CELL.INP IF THE * COMPUTATIONAL GRID IS CARTESIAN AND NWGG.EQ.0 * SELVMAX: MAXIMUM SURFACE ELEVATION FOR UNSTRETCHING (ABOVE MAX SELV ) * BELVMIN: MINIMUM BOTTOM ELEVATION FOR UNSTRETCHING (BELOW MIN BELV) * C80 IS3DO ISR3DO NP3DO KPC NWGG I3DMI I3DMA J3DMI J3DMA I3DRW SELVMAX BELVMIN 0 0 24 5 0 1 73 1 77 0 15 -50 ------------------------------------------------------------------------------- C81 OUTPUT ACTIVATION AND SCALES FOR 3D FIELD OUTPUT * * VARIABLE: DUMMY VARIBLE ID (DO NOT CHANGE ORDER) * IS3(VARID): 1 TO ACTIVATE THIS VARIBLES * JS3(VARID): 0 FOR NO SCALING OF THIS VARIABLE * 1 FOR AUTO SCALING OF THIS VARIABLE OVER RANGE 00 FOR NORTHERN HEMISPHERE; <0 FOR SOUTHERN HEMISPHERE * BASEDATE: YYYY-MM-DD (NO BLANK) * BASETIME: HH:MM:SS (NO BLANK) * PROJ: PROJECT NAME IS A STRING OF MAXIMUM LENGTH 20 * WITHOUT ANY BLANKS * C91 NCDFOUT DEFLEV ROTA BLK UTMZ HREST BASEDATE BASETIME PROJ 0 1 1 -999 52 24 2017-01-01 00:00:00 EFDC ------------------------------------------------------------------------------- C91A OPTIONS FOR NETCDF OUTPUT * * TYPE File creation option * =1: Single file * =0: Multiple daily files * BEGIN Start julian day of writing netcdf file * END End julian day of writing netcdf file C91A TYPE BEGIN END 0 0 0 ------------------------------------------------------------------------------- C91B OPTIONS FOR NETCDF OUTPUT * * ISNCDF(I) OPTION FOR OUTPUT, I=1:12 * = 0:NO * = 1:YES * * 1 2 3 4 5 6 7 8 9 10 11 12 C91B SAL TEM DYE SLF TOX SED SND WQL LPT SHR WIN WAV 0 0 0 0 0 0 0 0 0 0 0 0