# D-Flow FM mdu-file, generated by Matlab on 10:49:24, 21-05-2015. # This standardized mdu-file is intended to only be used for the testbench. [model] Program = D-Flow FM # Program Version = 1.1.137.40086 # Version MDUFormatVersion = 1.02 # File format version. Do not edit this. AutoStart = 0 # Autostart simulation after loading MDU or not (0=no, 1=autostart, 2=autostartstop). [geometry] NetFile = windcase_net.nc # *_net.nc BathymetryFile = # *.xyb DryPointsFile = # Dry points file *.xyz, third column dummy z values, or polygon file *.pol. WaterLevIniFile = # Initial water levels sample file *.xyz LandBoundaryFile = # Only for plotting ThinDamFile = # *_thd.pli, Polyline(s) for tracing thin dams. FixedWeirFile = # *_fxw.pliz, Polyline(s) x,y,z, z = fixed weir top levels (formerly fixed weir) VertplizFile = # *_vlay.pliz), = pliz with x,y, Z, first Z =nr of layers, second Z = laytyp ProflocFile = # *_proflocation.xyz) x,y,z, z = profile refnumber ProfdefFile = # *_profdefinition.def) definition for all profile nrs ProfdefxyzFile = # *_profdefinition.def) definition for all profile nrs ManholeFile = # File containing manholes (e.g. *.dat) PartitionFile = # *_part.pol, polyline(s) x,y Uniformwidth1D = 2. # Uniform width for 1D profiles not specified bij profloc WaterLevIni = 0.0000000 # Initial water level Bedlevuni = -1.0000000 # Uniform bottom level, (only if bedlevtype>=3, used at missing z values in netfile Bedslope = 0. # bedslopeinclination, sets zk = bedlevuni + x*bedslope ans sets zbndz = xbndz*bedslope BedlevType = 3 # 1: at cell center (tiles xz,yz,bl,bob=max(bl)), 2: at face (tiles xu,yu,blu,bob=blu), 3: at face (using mean node values), 4: at face (using min node values), 5: at face (using max node values), 6: with bl based on node values Blmeanbelow = -999. # if not -999d0, below this level the cell centre bedlevel is the mean of surrouding netnodes Blminabove = -999. # if not -999d0, above this level the cell centre bedlevel is the min of surrouding netnodes AngLat = 0.00 # Angle of latitude S-N (deg), 0=no Coriolis AngLon = 0. # Angle of longitude E-W (deg), 0=Greenwich Conveyance2D = -1 # -1:R=HU,0:R=H, 1:R=A/P, 2:K=analytic-1D conv, 3:K=analytic-2D conv Nonlin2D = 0 # Non-linear 2D volumes, only icm ibedlevtype = 3 and Conveyance2D>=1 Sillheightmin = 0.5 # Weir treatment only if both sills larger than this value (m) Makeorthocenters = 0 # 1=yes, 0=no switch from circumcentres to orthocentres in geominit Dcenterinside = 1. # limit cell center; 1.0:in cell <-> 0.0:on c/g Bamin = 1.d-6 # Minimum gridcell area , icm cutcells OpenBoundaryTolerance = 3. # Search tolerance factor between boundary polyline and grid cells. Unit: in cell size units (i.e., not metres). Kmx = 0 # Max nr of vertical layers Layertype = 1 # 1= all sigma, 2 = all z, 3 = use VertplizFile Numtopsig = 0 # Nr of sigmalayers in top of Zlayer model SigmaGrowthFactor = 1. # layer thickness growth factor from bed up [numerics] CFLMax = 0.7 # Max. Courant nr. CFLWaveFrac = 0.1 # Wave velocity fraction, total courant vel = u + cflw*wavevelocity AdvecType = 3 # Adv type, 0=no, 1= Wenneker, qu-udzt, 2=1, q(uio-u), 3=Perot q(uio-u), 4=Perot q(ui-u), 5=Perot q(ui-u) without itself Lincontin = 0 # Default 0; Set to 1 for linearizing d(Hu)/dx; link to AdvecType TimeStepType = 2 # 0=only transport, 1=transport + velocity update, 2=full implicit step_reduce, 3=step_jacobi, 4=explicit Limtyphu = 0 # Limiter type for waterdepth in continuity eq., 0=no, 1=minmod,2=vanLeer,3=Kooren,4=Monotone Central Limtypmom = 4 # Limiter type for cell center advection velocity, 0=no, 1=minmod,2=vanLeer,3=Kooren,4=Monotone Central Limtypsa = 4 # Limiter type for salinity transport, 0=no, 1=minmod,2=vanLeer,3=Kooren,4=Monotone Central Maxdegree = 6 # Maximum degree in Gauss elimination Vertadvtypsal = 5 # Vertical advection type for salinity, 0=No, 1=UpwexpL, 2=Centralexpl, 3=UpwimpL, 4=CentraLimpL, 5=4 but 3 for neg. stratif., 6=higher order expl, no forester Icgsolver = 4 # Solver type , 1 = sobekGS_OMP, 2 = sobekGS_OMPthreadsafe, 3 = sobekGS, 4 = sobekGS + Saadilud, 5 = parallel/global Saad, 6 = parallel/Petsc, 7 = parallel/GS FixedWeirScheme = 0 # 0 = no, 1 = compact stencil, 2 = whole tile lifted, full subgrid weir + factor FixedWeirContraction = 1. # flow width = flow width*FixedWeirContraction Izbndpos = 0 # Position of z boundary, 0=D3Dflow, 1=on net boundary, 2 = on specifiend polyline Tlfsmo = 0 # Fourier smoothing time on waterlevel boundaries (s) Slopedrop2D = 0.3 # Apply droplosses only if local bottom slope > Slopedrop2D, <=0 =no droplosses Chkadvd = 0.1 # Check advection terms if depth < chkadvdp, => less setbacks Teta0 = 0.55 # Teta of time integration, 0.5 < Teta < 1d0 Qhrelax = 1.d-2 # Relaxation qhbnd ( ) Jbasqbnddownwindhs = 0 # 0 : original hu on qbnd, 1 = downwind hs on qbnd cstbnd = 0 # Delft-3D type velocity treatment near boundaries for small coastal models (1) or not (0) Maxitverticalforestersal = 100 # 0 : no vertical filter, > 0 = Max nr of iterations Maxitverticalforestertem = 0 # 0 : no vertical filter for temp, > 0 = Max nr of iterations Jaorgsethu = 1 # 0 : setumod, sethu, setau sequence, 1 : sethu, setau, setumod sequence (standard) ilutype = 0 # 0: parms-default nlevel = 0 # 0: parms-default dtol = 0. # 0d0: parms-default Maxwaterleveldiff = 0. # upper bound (in m) on water level changes, <= 0: no bounds Maxvelocitydiff = 0. # upper bound (in m/s) on velocity changes, <= 0: no bounds TransportMethod = 1 # Transport method, 0=Herman method, 1=Sander method [physics] UnifFrictCoef = 65.0000000 # Uniform friction coefficient, 0=no friction UnifFrictType = 0 # 0=Chezy, 1=Manning, 2=White Colebrook, 3=idem, WAQUA style UnifFrictCoef1D = 2.3d-2 # Uniform friction coefficient in 1D links, 0=no friction UnifFrictCoefLin = 0. # Uniform linear friction coefficient for ocean models (m/s), 0=no Umodlin = 0 # linear friction umod , ifrctyp 4,5,6 Vicouv = 1.0000000 # Uniform horizontal eddy viscosity (m2/s) Dicouv = 10.0000000 # Uniform horizontal eddy diffusivity (m2/s) Vicoww = 0.0000000 # Uniform vertical eddy viscosity (m2/s) Dicoww = 0.0000000 # Uniform vertical eddy diffusivity (m2/s) Vicwminb = 0. # Minimum visc in prod and buoyancy term (m2/s) Smagorinsky = 0. # Add Smagorinsky horizontal turbulence : vicu = vicu + ( (Smagorinsky*dx)**2)*S, e.g. 0.1 Elder = 0. # Add Elder contribution : vicu = vicu + Elder*kappa*ustar*H/6), e.g. 1.0 irov = 0 # 0=free slip, 1 = partial slip using wall_ks wall_ks = 0. # Nikuradse roughness for side walls, wall_z0=wall_ks/30 Rhomean = 1000.0000000 # Average water density (kg/m3) Idensform = 0 # 1=Eckard, 2=Unesco, 3=barocin case Ag = 9.81 # Gravitational acceleration TidalForcing = 1 # Tidal forcing (0=no, 1=yes) (only for jsferic == 1) Doodsonstart = 55.565 # TRIWAQ = 55.565D0 , D3D = 57.555D0 Doodsonstop = 375.575 # TRIWAQ = 375.575D0 , D3D = 275.555D0 Doodsoneps = 3.d-2 # TRIWAQ = 0.0 400 cmps , D3D = 0.03 60 cmps Salinity = 0 # Include salinity, (0=no, 1=yes) InitialSalinity = 0. # Inital salinity concentration (ppt) Sal0abovezlev = -999. # Salinity 0 above level (m) DeltaSalinity = -999. # for testcases Temperature = 0 # Include temperature, (0=no, 1=only transport, 5=heat flux model (5) of D3D), 3=excess model of D3D InitialTemperature = 6. # Inital temperature (degC) Secchidepth = 1. # Water clarity parameter (m) Stanton = -1. # Coefficient for convective heat flux ( ), if negative, use Cd wind Dalton = -1. # Coefficient for evaporative heat flux ( ), if negative, use Cd wind [wind] ICdtyp = 2 # ( ),1=const, 2=S&B 2 breakpoints, 3= S&B 3 breakpoints, 4=Charnock constant Cdbreakpoints = 0.0006300 0.0072300 # ( ), e.g. 0.00063 0.00723 Windspeedbreakpoints = 0.0000000 100.0000000 # (m/s), e.g. 0.0 100.0 Rhoair = 1.0000000 # Air density (kg/m3) PavBnd = 101325.0000000 # Average air Pressure on open boundaries, (N/m2), only applied if value > 0 Gapres = 101325.0000000 # Only relevant for Spiderweb: Global Atmospheric Pressure, (N/m2) [time] RefDate = 20150418 # Reference date (yyyymmdd) Tzone = 0. # Data Sources in GMT are interrogated with time in minutes since refdat-Tzone*60 Tunit = M # Time units in MDU (H, M or S) DtUser = 60.0000000 # User timestep in seconds (interval for external forcing update & his/map output) DtMax = 60.0000000 # Max timestep in seconds DtInit = 1. # Initial timestep in seconds TStart = 60.0000000 # Start time w.r.t. RefDate (in TUnit) TStop = 1380.000 # Stop time w.r.t. RefDate (in TUnit) [external forcing] ExtForceFile = windcase.ext # Old format for external forcings file *.ext, link with tim/cmp-format boundary conditions specification ExtForceFileNew = # New format for external forcings file *.ext, link with bc -format boundary conditions specification [output] OutputDir = dflowfmoutput # Output directory of map-, his-, rst-, dat- and timings-files, default: DFM_OUTPUT_. Set to . for no dir/current dir. ObsFile = # *.xyn Coords+name of observation stations. CrsFile = # *_crs.pli Polyline(s) definining cross section(s). HisFile = windcase_his.nc # *_his.nc History file in NetCDF format. HisInterval = 0.0000000 # History output, given as "interval" "start period" "end period" (s) XLSInterval = # Interval (s) between XLS history FlowGeomFile = # *_flowgeom.nc Flow geometry file in NetCDF format. MapFile = # *_map.nc Map file in NetCDF format. MapInterval = 300.0000000 # Map file output, given as "interval" "start period" "end period" (s) MapFormat = 1 # Map file format, 1: netCDF, 2: Tecplot, 3: netCFD and Tecplot Heatfluxesonoutput = 0 # 1=yes,0=no Richardsononoutput = 0 # 1=yes,0=no RstInterval = # Restart file output, given as "interval" "start period" "end period" (s) S1incinterval = # Interval (m) in incremental file for waterlevels S1 WaqFileBase = # Basename (without extension) for all Delwaq files to be written. WaqInterval = # Interval (in s) between Delwaq file outputs StatsInterval = # Interval (in s) between simulation statistics output. Writebalancefile = 0 # Write Balancefile, 1=yes, 0=no TimingsInterval = # Timings output interval TimeSplitInterval = 0X # Time splitting interval, after which a new output file is started. value+unit, e.g. '1 M', valid units: Y,M,D,h,m,s. MapOutputTimeVector = # File (.mpt) containing fixed map output times (s) w.r.t. RefDate FullGridOutput = 0 # 0:compact, 1:full time-varying grid data SnapshotDir = # Directory where snapshots/screendumps are saved.