swave # Include short waves (1), exclude short waves (0) ne_layer # Name of file containing depth of hard structure morphology # Include morphology (1) or exclude (0) nd_var # Index of layer with variable thickness ngd # Number of sediment classes struct # Switch for hard structures globalvars # Mnems of global output variables, not per se the same sice as nglobalvar (invalid variables, defaults) tstart # Start time of output, in morphological time ncross # Number of output cross sections tidetype # Switch for offfshore boundary, velocity boundary or instant water level boundary (default) dx # Regular grid spacing in x-direction dy # Regular grid spacing in y-direction front # Switch for seaward flow boundary: 0 = radiating boundary(Ad), 1 = Van Dongeren, 1997 rotate # Rotate (1) postprocess output with the rotate function. nspr # nspr = 1 long wave direction forced into centres of short wave bins, nspr = 0 regular long wave spreadin tsglobal # Name of file containing timings of global output avalanching # Include avalanching (1) or exclude (0) yfile # Name of the file containing y-coordinates of the calculation grid wearth # Angular velocity of earth calculated as: 1/rotation_time (in hours), later changed in calculation code to rad/s posdwn # Bathymetry is specified positive down (1) or positive up (-1) thetamin # Lower directional limit (angle w.r.t computational x-axis) dir0 # Mean wave direction (Nautical convention) for instat = 0,1,2,3 alfa # Angle of x-axis from East sedtrans # Include sediment transport (1) or exclude (0) back # Switch for boundary at bay side, 0 = radiating boundary (Ad), 1 = reflective boundary; uu=0 thetamax # Higher directional limit (angle w.r.t computational x-axis) D50 # D50 grain size per grain type thetanaut # Thetamin,thetamax in cartesian (0) or nautical convention (1) npointvar # Number of point output variables ncfilename # xbeach netcdf output file nameProjection units (not to be used, only pass to output, this limit is too short for WKT....) # This could be the proj4 string +init=epsg:28992 leftwave # old name for lateralwave xori # X-coordinate of origin of axis rhog8 # 1/8*rho*g nmeanvar # Number of mean,min,max,var output variables nglobalvar # Number of global output variables (as specified by user) Tm01switch # Turn off or on Tm01 or Tm-10 switch rhos # Solid sediment density (no pores) yori # Y-coordinate of origin of axis Trep # Representative wave period for instat = 0,1,2,3 rhoa # Air density roller # Turn on (1) or off(0) roller model nspectrumloc # Number of input spectrum locations taper # Spin-up time of wave boundary conditions, in morphological time xyfile # Name of the file containing (Delft3D) xy-coordinates of the calculation grid bcfile # Name of spectrum file timings # Switch to turn on (1) or off (0) progress output to screen tspoints # Name of file containing timings of point output meanvars # Mnems of mean output variables (by variables) npoints # Number of output point locations tstop # Stop time of simulation, in morphological time wbcversion # Version of wave boundary conditions instat # Wave boundary condtion type vardx # Switch for variable grid spacing: 1 = irregular spacing, 0 = regular grid spacing projection # projection string tscross # Name of file containing timings of cross section output nrugdepth # Number of depths to compute runup in runup gauge xfile # Name of the file containing x-coordinates of the calculation grid lat # Latitude at model location for computing Coriolis right # Switch for lateral boundary at right, 0 = vv computed from NSWE, 1 = reflective wall; vv=0 pointvars # Mnems of point output variables (by variables) zs0 # Inital water level D90 # D90 grain size per grain type zs0file # Name of tide boundary condition series gridform # Swicth to read in grid bathy files with 'XBeach' or 'Delft3D' format respectively Tlong # Wave group period for case instat = 1 tintp # Interval time of point and runup gauge output depfile # Name of the input bathymetry file pointtypes # Point types (0 = point, 1=rugauge) tintc # Interval time of cross section output Hrms # Hrms wave height for instat = 0,1,2,3 tintg # Interval time of global output tintm # Interval time of mean,var,max,min output tsmean # Name of file containing timings of mean, max, min and var output dthetaS_XB # The (counter-clockwise) angle in the degrees needed to rotate from the x-axis in SWAN to the x-axis pointing East bedfricfile # Bed friction file (only valid with values of C) tideloc # Number of corner points on which a tide time series is specified lwave # Include short wave forcing on NLSW equations and boundary conditions (1), or exclude (0) dtheta # Directional resolution freewave # Switch for free wave propagation 0 = use cg (default); 1 = use sqrt(gh) in instat = 3 tunits # Units can be defined in udunits format (seconds since 1970-01-01 00:00:00.00 +1:00) setbathyfile # Name of prescribed bed update file zsinitfile # Name of inital condition file zs nd # Number of computational layers in the bed swrunup # Turn on (1) or off (0) short wave runup nx # Number of computiation cell corners in x-direction ny # Number of computiation cell corners in y-direction rt # Duration of wave spectrum at offshore boundary, in morphological time outputformat # Choice of output file format: 'netcdf', 'fortran', or 'debug' bedfriction # Bed friction formulation: 'chezy','white-colebrook' paulrevere # Specifies tide on sea and land ('land') or two sea points ('sea') if tideloc = 2if tideloc =>2, then this indicates where the time series are to be # applied. Input for tidal information to xbeach options (3): # 1. one tidal record --> specify tidal record everywhere # 2. two tidal records --> Need to specify keyword 'paulrevere' # paulrevere=='land' implies to apply one tidal record to # both sea corners and one tidal record to both land corners # paulrevere=='sea' implies to apply the first tidal record # (column 2 in zs0input.dat) to the (x=1,y=1) sea corner and # the second tidal record (third column) to the (x=1,y=N) sea corner # 3. four tidal records --> Need to list tidal records in # zs0input.dat in order of: # (x=1,y=1) # (x=1,y=N) # (x=N,y=N) # (x=N,y=1) # NOTE: clockwise from (1,1) corner nrugauge # Number of output runup gauge locations thetanum # Coefficient determining whether upwind (1) or central scheme (0.5) is used. morstop # Stop time morphology, in morphological time rho # Density of water dzg3 # Thickness of bottom sediment class layers dzg2 # Nominal thickness of variable sediment class layer dzg1 # Thickness of top sediment class layers flow # Include flow calculation (1), or exclude (0) morstart # Start time morphology, in morphological time rightwave # old name for lateralwave left # Switch for lateral boundary at ny+1, 'neumann' = vv computed from NSWE, 'wall' = reflective wall; vv=0