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A list of all pages that have property "Describe input parameters model" with value "Geometric parameters of river reach and erosion capacity.". Since there have been only a few results, also nearby values are displayed.

Showing below up to 11 results starting with #1.

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List of results

  • Model:HydroTrend  + (Drainage basin properties (river networks, hypsometry, relief, reservoirs). biophysical parameters (temperature, precipitation, evapo-transpiration, and glacier characteristics).)
  • Model:SFINCS  + (Elevation file and a mask file designating boundary cells, active cells, and inactive cells)
  • Model:GEOMBEST  + (Excel files. See User's Guide and Moore et al., 2010)
  • Model:1DBreachingTurbidityCurrent  + (Excel sheet. User can change initial geomeExcel sheet. User can change initial geometry data (slope at top of breach, initial height of breach face, initial bed slope in quasi-horizontal region, initial location of breach face, initial length of quasi-horizontal region); sediment grain size distribution; sediment properties (bed porosity, breach porosity, bed friction coefficient, wall friction coefficient, submerged specific gravity); and time evolution (time step, number of time steps, initial number of nodes in horizontal, print interval, calculation time).zontal, print interval, calculation time).)
  • Model:SVELA  + (Flow velocity, friction slope, hydraulic radius, and bed roughness)
  • Model:WRF-Hydro  + (For a complete explanation of input parameFor a complete explanation of input parameters please see the WRF-Hydro Technical Description https://ral.ucar.edu/projects/wrf_hydro/technical-description-user-guide</br>WRF-Hydro requires a number of input files describing the model domain, parameters, initial</br>conditions, hydrologic routing, and when run in a standalone configuration, meteorological forcing files.nfiguration, meteorological forcing files.)
  • Model:DLBRM  + (For every cell in the watershed grid, dailFor every cell in the watershed grid, daily precipitation and air temperature, solar isolation, elevation, slope, flow direction, land use, depths (cm) of USZ (Upper Soil Zone) and LSZ (Lower Soil Zone), available water capacity (%) of USZ and LSZ, soil texture, permeability (cm/h) of USZ and LSZ, Manning's coefficient values, and daily flows (Changsheng He and Thomas E. Croley II, 2007).ngsheng He and Thomas E. Croley II, 2007).)
  • Model:TopoFlow-Diversions  + (For sources and sinks, the following inforFor sources and sinks, the following information must be provided, each on its own line:</br> ID (source pixel ID as long integer; calendar index)</br> nd (number of durations and flow rates)</br> durations (vector of durations in minutes)</br> flow rates (vector of discharges in m^3/sec)</br></br>For canals, the following information must be provided, again with each entry on a separate line in the text file:</br> ID1 (start pixel ID as long integer; calendar index)</br> ID2 (end pixel ID as long integer; calendar index)</br> time (travel time between ID1 and ID2, in minutes)</br> nd (number of durations and flow rates)</br> durations (vector of durations in minutes)</br> flow rates (vector of discharges in m^3/sec)</br></br>Canals are currently assumed to be lossless, so that the flow rates at the two ends are identical, but lagged by the travel time. </br>The behavior of this component is controlled with a configuration (CFG) file, which may point to other files that contain input data. Here is a sample configuration (CFG) file for this component: </br> Method code: 0</br> Method name: Standard</br> Use sources: 0 Treynor_sources.txt (N/A)</br> Use sinks: 0 Treynor_sinks.txt (N/A)</br> Use canals: 0 Treynor_canals.txt (N/A) Treynor_canals.txt (N/A))
  • Model:WACCM-EE  + (GCM initial conditions files (netcdf) files describe initial state of atmosphere up ~km 140)
  • Model:TopoToolbox  + (GeoTiff, ESRI ASCII digital elevation model)
  • Model:DeltaClassification  + (Geometric parameters on delta shapes derivGeometric parameters on delta shapes derived from satellite data. </br>To run this code, the following shape files are required:</br></br>• network shapefile, containing the river network extracted from satellite imagery</br>• island shapefile, containing the land masses or islands of the delta</br>• patch shapefile, containing the outline of channelspefile, containing the outline of channels)
  • Model:Pllcart3d  + (Geometrical parameters: Nx, Ny, Nz, X1, X2, Y1, Y2, Z1, Z2; Flow parameters: Reynolds, Peclet, Viscosity Ratio; Flags: resume simulation, add wave perturbation.)
  • Model:LOADEST  + (Given a time series of streamflow, additional data variables, and constituent concentration, LOADEST assists the user in developing a regression model for the estimation of constituent load (calibration).)
  • Model:VIC  + (Global Parameter File user_def.h File Meteorological Forcing Files Soil Parameter File Vegetation Library File Vegetation Parameter File (Optional) Initial State File (Optional) Elevation Band File (Optional) Lake/Wetland Parameter File)
  • Model:SETTLE  + (Grain size and density)
  • Model:GroundwaterDupuitPercolator  + (Gridded elevation, aquifer base elevation. Hydraulic conductivity, porosity, recharge.)
  • Model:Bedrock Fault Scarp  + (HILLSLOPE_LENGTH: length of hillslope, in HILLSLOPE_LENGTH: length of hillslope, in meters</br>NUMBER_OF_NODES: number of model nodes (initially)</br>EROSION_RATE: slope-normal erosion rate in m/yr</br>THRESHOLD_SLOPE: threshold slope angle (m/m)</br>THROW_RATE: fault throw rate, meters per year</br>FAULT_DIP: fault dip angle, degrees</br>SEISMIC_INTERVAL: Time interval between earthquakes, in years</br>RUN_DURATION: duration of run in years</br>DT: time step duration in years</br>OPT_ERO_VAR: option for time variation in erosion rate</br>AMPLITUDE: amplitude of sinusoidal variation (m/yr)</br>PERIOD: period of sinusoidal variation (yr)</br>PHASE: phase offset for sinusoidal variation (degrees)</br>DEL18O_FILENAME: name of file containing oxygen isotope curve</br>DEL18O_POWER: exponent</br>MIN_ERORATE:</br>OPT_PLOT: option for plotting</br>OPT_EPS_PLOT: option for output to .eps file</br>PLOT_INTERVAL: time interval for plotting, in yearsRVAL: time interval for plotting, in years)
  • Model:Zscape  + (INTEGER NXPROB INTEGER TIMESTEPS double prINTEGER NXPROB</br>INTEGER TIMESTEPS</br>double precision DIFFUSION</br>double precision DELX,DELT</br>* PARAMETER (NXPROB=1000), c dimension of problem grid</br>* PARAMETER (TIMESTEPS=50000), c number of time steps</br>* PARAMETER (DIFFUSION=1d-3), c metres/year - a very high diffusion value</br>* PARAMETER (DELX=0.1d0), c grid spacing in metres</br>* PARAMETER (DELT=1d0), c time step in yearsPARAMETER (DELT=1d0), c time step in years)
  • Model:SNAC  + (In XML format, the following groups of parIn XML format, the following groups of parameters are specified:</br></br>simulation control group: total model time, time step, damping, etc.</br>plugins: elasticity, viscoelasticity, temperature solver, etc.</br>domain description group: domain size, element numbers, etc.</br>initial and boundary conditions groupetc. initial and boundary conditions group)
  • Model:CoastMorpho2D  + (Initial bathymetry Boundary conditions Time series of waves, wind, storm surges Various hydrodynamics and sedimentary parameters)
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