# Generated on 11:38:15, 05-12-2017 # Deltares, D-Flow FM Version 1.1.261.53235M, Nov 15 2017, 09:54:18 [model] Program = D-Flow FM Version = 1.1.261.53235M MDUFormatVersion = 1.06 # File format version (do not edit this) AutoStart = 0 # Autostart simulation after loading MDU (0: no, 1: autostart, 2: autostartstop) [geometry] NetFile = dummy_net.nc # Unstructured grid file *_net.nc OneDNetworkFile = dflow1d\Flow1D.md1d BedlevelFile = # Bedlevels points file e.g. *.xyz, only needed for bedlevtype not equal 3 DryPointsFile = # Dry points file *.xyz (third column dummy z values), or dry areas polygon file *.pol (third column 1/-1: inside/outside) WaterLevIniFile = # Initial water levels sample file *.xyz LandBoundaryFile = # Land boundaries file *.ldb, used for visualization ThinDamFile = # Polyline file *_thd.pli, containing thin dams FixedWeirFile = # Polyline file *_fxw.pliz, containing fixed weirs with rows x, y, crest level, left ground level, right ground level Gulliesfile = # Polyline file *_gul.pliz, containing lowest bed level along talweg x, y, z level VertplizFile = # Vertical layering file *_vlay.pliz with rows x, y, Z, first Z, nr of layers, second Z, layer type ProflocFile = # Channel profile location file *_proflocation.xyz with rows x, y, z, profile number ref ProfdefFile = # Channel profile definition file *_profdefinition.def with definition for all profile numbers ProfdefxyzFile = # Channel profile definition file _profdefinition.def with definition for all profile numbers Uniformwidth1D = 200. # Uniform width for channel profiles not specified by profloc Uniformheight1D = 3. # Uniform height for channel profiles not specified by profloc ManholeFile = # File *.ini containing manholes PipeFile = # File *.pliz containing pipe-based 'culverts' ShipdefFile = # File *.shd containing ship definitions WaterLevIni = 3. # Initial water level at missing s0 values BedlevUni = -5. # Uniform bed level used at missing z values if BedlevType > 2 BedlevType = 1 # Bathymetry specification # 1: at cell centers # 2: at faces # 3: at nodes, face levels mean of node values # 4: at nodes, face levels min. of node values # 5: at nodes, face levels max. of node values # 6: at nodes, face levels max. of cell-center values PartitionFile = # Domain partition polygon file *_part.pol for parallel run AngLat = 0. # Angle of latitude S-N (deg), 0: no Coriolis AngLon = 0. # Angle of longitude E-W (deg), 0: Greenwich, used in solar heat flux computation. Conveyance2D = -1 # -1: R=HU,0: R=H, 1: R=A/P, 2: K=analytic-1D conv, 3: K=analytic-2D conv Slotw2D = 0. # - [numerics] CFLMax = 0.7 # Maximum Courant number AdvecType = 33 # Advection type (0: none, 1: Wenneker, 2: Wenneker q(uio-u), 3: Perot q(uio-u), 4: Perot q(ui-u), 5: Perot q(ui-u) without itself) TimeStepType = 2 # Time step handling (0: only transport, 1: transport + velocity update, 2: full implicit step-reduce, 3: step-Jacobi, 4: explicit) Icoriolistype = 5 # 0=No, 1=yes, if jsferic then spatially varying, if icoriolistype==6 then constant (anglat) Limtypmom = 4 # Limiter type for cell center advection velocity (0: none, 1: minmod, 2: van Leer, 3: Kooren, 4: monotone central) Limtypsa = 4 # Limiter type for salinity transport (0: none, 1: minmod, 2: van Leer, 3: Kooren, 4: monotone central) TransportMethod = 1 # Transport method (0: Herman's method, 1: transport module) TransportTimestepping = 1 # Timestepping method in Transport module, 0 = global, 1 = local (default) Vertadvtypsal = 6 # Vertical advection type for salinity (0: none, 1: upwind explicit, 2: central explicit, 3: upwind implicit, 4: central implicit, 5: central implicit but upwind for neg. stratif., 6: higher order explicit, no Forester) Vertadvtyptem = 6 # Vertical advection type for temperature (0: none, 1: upwind explicit, 2: central explicit, 3: upwind implicit, 4: central implicit, 5: central implicit but upwind for neg. stratif., 6: higher order explicit, 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) Noderivedtypes = 5 # 0=use der. types. , 1 = less, 2 = lesser, 5 = also dealloc der. types Tlfsmo = 0. # Fourier smoothing time (s) on water level boundaries Slopedrop2D = 0. # Apply drop losses only if local bed slope > Slopedrop2D, (<=0: no drop losses) cstbnd = 0 # Delft-3D type velocity treatment near boundaries for small coastal models (1: yes, 0: no) Epshu = 1.d-4 # Threshold water depth for wet and dry cells jaupwindsrc = 1 # 1st-order upwind advection at sources/sinks (1) or higher-order (0) jasfer3D = 0 # corrections for spherical coordinates [physics] UnifFrictCoef = 50 # Uniform friction coefficient (0: no friction) UnifFrictType = 0 # Uniform friction type (0: Chezy, 1: Manning, 2: White-Colebrook, 3: idem, WAQUA style) UnifFrictCoef1D = 50 # Uniform friction coefficient in 1D links (0: no friction) UnifFrictCoef1D2D = 50 # Uniform friction coefficient in 1D links (0: no friction) UnifFrictCoefLin = 0. # Uniform linear friction coefficient for ocean models (m/s) (0: no friction) Vicouv = 1. # Uniform horizontal eddy viscosity (m2/s) Dicouv = 1. # Uniform horizontal eddy diffusivity (m2/s) Smagorinsky = 0. # Smagorinsky factor in horizontal turbulence, e.g. 0.15 Elder = 0. # Elder factor in horizontal turbulence irov = 0 # 0=free slip, 1 = partial slip using wall_ks wall_ks = 0. # Wall roughness type (0: free slip, 1: partial slip using wall_ks) Rhomean = 1000. # Average water density (kg/m3) Ag = 9.81 # Gravitational acceleration TidalForcing = 1 # Tidal forcing, if jsferic=1 (0: no, 1: yes) SelfAttractionLoading = 0 # Self attraction and loading (0=no, 1=yes, 2=only self attraction) VillemonteCD1 = 1. # Calibration coefficient for Villemonte. Default = 1.0. NB. For Bloemberg data set 0.8 is recommended. VillemonteCD2 = 10. # Calibration coefficient for Villemonte. Default = 10.0. NB. For Bloemberg data set 0.8 is recommended. Salinity = 0 # Include salinity, (0=no, 1=yes) Temperature = 0 # Include temperature (0: no, 1: only transport, 3: excess model of D3D, 5: composite (ocean) model) SecondaryFlow = 0 # Secondary flow (0: no, 1: yes) [wind] ICdtyp = 2 # Wind drag coefficient type (1=Const; 2=Smith&Banke (2 pts); 3=S&B (3 pts); 4=Charnock 1955, 5=Whang 2005, 6=Wuest 2005, 7=Hersbach 2010 (2 pts) Cdbreakpoints = 6.3d-4 7.23d-3 # Wind drag coefficient break points Windspeedbreakpoints = 0. 100. # Wind speed break points (m/s) Relativewind = 0 # Wind speed relative to top-layer water speed, 1=yes, 0 = no) Rhoair = 1.2 # Air density (kg/m3) PavBnd = 0. # Average air pressure on open boundaries (N/m2) (only applied if > 0) Pavini = 0. # Average air pressure for initial water level correction (N/m2) (only applied if > 0) [time] RefDate = 20140101 # Reference date (yyyymmdd) Tzone = 0. # Time zone assigned to input time series DtUser = 120. # Time interval (s) for external forcing update DtNodal = 120. # Time interval (s) for updating nodal factors in astronomical boundary conditions DtMax = 120. # Maximal computation timestep (s) Dtfacmax = 1.1 # Max timestep increase factor ( ) DtInit = 120. # Initial computation timestep (s) Timestepanalysis = 0 # 0=no, 1=see file *.steps Autotimestepdiff = 0 # 0 = no, 1 = yes (Time limitation based on explicit diffusive term) Tunit = M # Time unit for start/stop times (D, H, M or S) TStart = 0. # Start time w.r.t. RefDate (in TUnit) TStop = 172800. # Stop time w.r.t. RefDate (in TUnit) [restart] RestartFile = # Restart netcdf-file, either *_rst.nc or *_map.nc RestartDateTime = # Restart date and time (YYYYMMDDHHMMSS) when restarting from *_map.nc [external forcing] ExtForceFile = c38.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 current dir. FlowGeomFile = # Flow geometry NetCDF *_flowgeom.nc ObsFile = c38_obs.xyn # Points file *.xyn with observation stations with rows x, y, station name CrsFile = c38_crs.pli # Polyline file *_crs.pli defining observation cross sections FouFile = # Fourier analysis input file *.fou HisFile = # HisFile name *_his.nc MapFile = # MapFile name *_map.nc HisInterval = 3600. 0. 0. # History output times, given as "interval" "start period" "end period" (s) XLSInterval = 0. # Interval (s) between XLS history MapInterval = 86400. 0. 0. # Map file output, given as "interval" "start period" "end period" (s) RstInterval = 2592000. 0. 0. # Restart file output times, given as "interval" "start period" "end period" (s) WaqInterval = 0. 0. 0. # DELWAQ output times, given as "interval" "start period" "end period" (s) StatsInterval = -5. # Screen step output interval in seconds simulation time, if negative in seconds wall clock time TimingsInterval = 0. # Timings statistics 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. MapFormat = 4 # Map file format, 1: netCDF, 2: Tecplot, 3: netCFD and Tecplot, 4: NetCDF-UGRID Wrihis_balance = 1 # Write mass balance totals to his file (1: yes, 0: no) Wrihis_sourcesink = 1 # Write sources-sinks statistics to his file (1=yes, 0=no) Wrihis_turbulence = 1 # Write k, eps and vicww to his file (1: yes, 0: no) Wrihis_wind = 1 # Write wind velocities to his file (1: yes, 0: no) Wrihis_rain = 1 # Write precipitation to his file (1: yes, 0: no) Wrihis_temperature = 1 # Write temperature to his file (1: yes, 0: no) Wrihis_heatflux = 1 # Write heat flux to his file (1: yes, 0: no) Wrihis_salinity = 1 # Write salinity to his file (1: yes, 0: no) Wrimap_waterlevel_s0 = 1 # Write water levels for previous time step to map file (1: yes, 0: no) Wrimap_waterlevel_s1 = 1 # Write water levels to map file (1: yes, 0: no) Wrimap_velocity_component_u0 = 1 # Write velocity component for previous time step to map file (1: yes, 0: no) Wrimap_velocity_component_u1 = 1 # Write velocity component to map file (1: yes, 0: no) Wrimap_velocity_vector = 1 # Write cell-center velocity vectors to map file (1: yes, 0: no) Wrimap_upward_velocity_component = 1 # Write upward velocity component on cell interfaces (1: yes, 0: no) Wrimap_density_rho = 1 # Write flow density to map file (1: yes, 0: no) Wrimap_horizontal_viscosity_viu = 1 # Write horizontal viscosity to map file (1: yes, 0: no) Wrimap_horizontal_diffusivity_diu = 1 # Write horizontal diffusivity to map file (1: yes, 0: no) Wrimap_flow_flux_q1 = 1 # Write flow flux to map file (1: yes, 0: no) Wrimap_spiral_flow = 1 # Write spiral flow to map file (1: yes, 0: no) Wrimap_numlimdt = 1 # Write the number times a cell was Courant limiting to map file (1: yes, 0: no) Wrimap_taucurrent = 1 # Write the shear stress to map file (1: yes, 0: no) Wrimap_chezy = 1 # Write the chezy roughness to map file (1: yes, 0: no) Wrimap_turbulence = 1 # Write vicww, k and eps to map file (1: yes, 0: no) Wrimap_wind = 1 # Write wind velocities to map file (1: yes, 0: no) Wrimap_tidal_potential = 1 # Write tidal potential to map file (1: yes, 0: no) MapOutputTimeVector = # File (*.mpt) containing fixed map output times (s) w.r.t. RefDate FullGridOutput = 0 # Full grid output mode (0: compact, 1: full time-varying grid data) EulerVelocities = 0 # Euler velocities output (0: GLM, 1: Euler velocities) Wrirst_bnd = 1 # Write waterlevel, bedlevel and coordinates of boundaries to restart files Writepart_domain = 1 # Write partition domain info. for postprocessing [sediment] MorFile = test011d.mor # Morphology settings file (*.mor) SedFile = test011d.sed # Sediment characteristics file (*.sed) Sedimentmodelnr = 4 # Sediment model nr, (0=no, 1=Krone, 2=SvR2007)