---------------------------------------------------- Grid input nx = 334 ny = 2 xori = 0.00 yori = 0.00 alfa = 0.00 depfile = bathy_event3.dep posdwn = -1 vardx = 1 xfile = x_event3.grd yfile = y_event3.grd ---------------------------------------------------- General constants rho = 1025 g = 9.81 ---------------------------------------------------- Wave discretisation thetamin = 156 thetamax = 336 dtheta = 20 thetanaut = 1 ---------------------------------------------------- Numerics input CFL = 0.9 eps = 0.001 scheme = 2 ---------------------------------------------------- Boundary condition options order = 2 front = 1 back = 0 left = 1 right = 1 zs0file = tides_event3.dat tidelen = 24 tideloc = 1 instat=41 Required for instat 3,4,5,7 bcfile = waves_event3.dat ---------------------------------------------------- Wave calculation options break = 1 wci = 1 roller = 1 beta = 0.1 gamma = 0.55 gammax = 2. alpha = 1. delta = 0.0 n = 10. Groundwater flow calculation options gwflow = 1 kx = 0.01 ky = 0.05 kz = 0.05 ---------------------------------------------------- Flow calculation options nuh = 0.1 nuhfac = 1.0 hmin = 0.05 C = 55. umin = 0.0 hswitch = 0.1 ---------------------------------------------------- Time input tstart = 0 tintg = 82800 tintm = 82800 tstop = 82800 taper = 200 ---------------------------------------------------- Sediment transport calculation options dico = 1. D50 = 0.0005 D90 = 0.002 rhos = 2650 z0 = 0.006 facsl = 1.6 tsfac = 0.1 lws = 1 form = 2 swtable = RF_table.txt turb = 1 Tsmin = 1 dzsdx_cr = 0.1 facthr = 7.5 ---------------------------------------------------- Morphological calculation options morfac = 5 morstart = 120 por = 0.4 dryslp = 1.0 wetslp = 0.2 nspr = 0 facAs = 0.3 facSk = 0.3 ---------------------------------------------------- Output options npoints = 0 ------ output at t=tstart + n*tintg (n=0,1,....) nglobalvar = 1 zb