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This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.

List of results

• Model:Gvg3Dp  + (Input parameters: *Geometrical parameters: Nx, Ny, Nz. *Grid: Uniform or nonuniform. *Flow Parameters: Reynolds, Peclet *Particle Parameters: Settling velocities. *Flags: Output writing flags. Inflow/Outflow to the domain flags.)
• Model:CosmoLand  + (Input: *Landslide: recurrence interval, si … Input:</br>*Landslide: recurrence interval, size parameters</br>*Cosmogenic: production rate, decay rate, attenuation, density diffusive erosion rate drainage basin size, critical drainage area for a channel</br>*River channel scaling parameters: width, sediment depth, drainage densitys: width, sediment depth, drainage density)
• Model:LEMming2  + (Inputs include grid definitions, erosion rule parameters, uplift time series, stratigraphic geometry, and rock type and rockfall debris erodibility.)
• Model:SNOWPACK  + (It requires the following meteorological p … It requires the following meteorological parameters:</br>* air temperature (TA)</br>* relative humidity (RH)</br>* wind speed (VW)</br>* incoming short wave radiation (ISWR) and/or reflected short wave radiation (RSWR)</br>* incoming long wave radiation (ILWR) and/or surface temperature (TSS)</br>* precipitation (PSUM) and/or snow height (HS)</br>* ground temperature (TSG, if available. Otherwise, you will have to use MeteoIO's data generators to generate a value) or geothermal heat flux</br>* snow temperatures at various depths (TS1, TS2, etc if available and only for comparisons, see section Snow and/or soil temperatures)see section Snow and/or soil temperatures))
• Model:Gc2d  + (Landscape elevation, ELA with time)
• Model:LONGPRO  + (Length of reach, distance between nodes, t … Length of reach, distance between nodes, timestep, number of timesteps, median grain size, elevation of the water surface, slope of initial river bed, Qmax, Xmax, mainning N, Initial elevation, node along X-as at which tectonic elev. Changes start, sediment conc. of lateral inflow, mass feed rate at upstream boundary,flow, mass feed rate at upstream boundary,)
• Model:Subside  + (Loading distribution, EET, Mantle viscosity)
• Model:Inflow  + (Main input parameters: * River velocity, width, depth, and sediment concentration. * Bathymetry)
• Model:Sakura  + (Main input parameters: * River velocity, width, depth, and sediment concentration * Bathymetry)
• Model:WSGFAM  + (Main inputs are bathymetry, riverine sediment discharge time-series, and ambient wave and current time-series. Critical velocity for sea bed erosion, bottom drag coefficient and critical bulk Richardson number can also be adjusted.)

• Model:DFMFON  + (Mangrove properties, Delft3D-FM model)

• Model:Marsh column model  + (Many, see Mudd et al. (2009) ECSS v 82(3) 377-389)
• Model:Wetland3P  + (Marsh vegetation and mudflat sediment characteristics Backbarrier basin width Reference wind speed Tidal range Reference sediment concentration)
• Model:WINDSEA  + (Maximum gradient windspeed 10 m above wate … Maximum gradient windspeed 10 m above water (m/s), Radius of maximum wind (km), Pressure difference between eye and ambient (mm Hg), Forward speed of hurricane (m/s), Maximum number of nodes in x direction (postive east), Maximum number of nodes in y direction (positive north), Space step in x direction (m), Space step in y direction (m), X location of eye (m), Y location of eye (m), Storm direction (degrees counterclockwise from east)ction (degrees counterclockwise from east))
• Model:STORM  + (Maximum number of timesteps over which win … Maximum number of timesteps over which winds computed, X-dir. position of storm center at beginning, Y-dir. position of storm center at beginning, Storm velocity (m/sec), Storm direction (degrees counterclockwise from east), Pressure at eye (Pascals), Pressure at edge (Pascals), Radius of maximum storm winds(m), Storm radius (m). maximum storm winds(m), Storm radius (m).)
• Model:FluidMud  + (Measured or artificially generated wave and current forcing. Floc diameter, density. Downslope gravity. Vertical grid mesh. Erodibility. Parameters for Bingham rheology.)
• Model:Manningseq-bouldersforpaleohydrology  + (Microsoft Excel tables)
• Model:River Network Bed-Material Sediment  + (Minimum requirements include a river network with link id, downstream link id, upstream drainage area, link length, and link slope. All of these are attributes are included as part of the National Hydrography Dataset Version 2 Plus (NHDV2Plus).)
• Model:Nitrate Network Model  + (Minimum requirements include a river network with link id, downstream link id, upstream drainage area, link length, and link slope. All of these are attributes are included as part of the National Hydrography Dataset Version 2 Plus (NHDV2Plus).)
• Model:TOPMODEL  + (Model Inputs: * Project file: Text descrip … Model Inputs:</br>* Project file: Text description of application and input file names and paths. </br>* Catchment (watershed) data file: Watershed and subwatershed topographic index—ln(a/tan B) distributions and the following parameters: </br>** The mean soil surface transmissivity </br>** A transmissivity profile decay coefficient </br>** A root zone storage capacity </br>** An unsaturated zone time delay </br>** A main channel routing velocity and internal subwatershed routing velocity </br>To use the infiltration excess mechanism, a hydraulic conductivity (or distribution), a wetting front suction and the initial near surface water content should be added. </br></br>The initialization of each run requires an initial stream discharge and the root zone deficit. </br>* Hydrological input data file: rainfall, potential evapotranspiration, and observed discharge time series in m/h </br>* Topographic index map data file: the topographic index map may be prepared from a raster digital elevation file using the DTM-ANALYSIS program. This file includes number of pixels in X direction, number of pixels in Y direction, grid size, and topographic index values for each pair of X and Y.hic index values for each pair of X and Y.)
• Model:SRH-1D  + (Model parameters, cross section geometry, bed material, flow and sediment input)