Property:Describe input parameters model

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Usage409

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Showing 20 pages using this property.

H

HEBEM +

A grid with initial elevation. Hydrologic time step and geomorphic time step Hydrologic paramters: average rainfall intensity, rainall duration, interstorm period, infiltration capacity, porosity, hydraulic conductivity, aquifer depth, specific yield, PET Geomorphic parameters: baselevel lowering rate, diffusivity for hillslope processes, weathering rate, parameters for erosion and sediment transport model +

F

FVshock +

A long list of coefficient depending on the differential equations that are being solved and on the chosen closure relationships. +

T

TURBINS +

A self-explanatory file "input.inp" should be set before running the code. Flow and particle parameters such as Reynolds number, Peclet number, particle settling velocity(ies) can be set here. Also, number of grid nodes, domain length, output file flags and simulation runtime, etc should be entered. +

H

Hydromad +

A two-component structure of a soil moisture accounting (SMA) module and a routing or unit hydrograph module. +

A

AR2-sinuosity +

AR2 model parameters, as defined in wrapper script +

K

Kudryavtsev Model +

Air Temperature : seasonal range of air temperature Snow parameters: winter-averaged Snow Thickness and Snow Density, thermal conductivity of snow Vegetation parameters: Vegetation height, vegetation thermal conductivity Soil properties: volumetric water content, heat capacity in frozen and thawed state +

P

PHREEQC +

All input for PHREEQC version 3 is defined in keyword data blocks, each of which may have a series of identifiers for specific types of data.; See 'Description of Input and Examples for PHREEQC Version 3 - A computer program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical calculations'. +

K

KnickZone-Picker +

All input parameters are defined in a well-documented and commented Matlab parameter file. Only a Digital Elevation Model, preferable in GeoTIFF format is needed. +

L

LISFLOOD +

All input that LISFLOOD requires are either in map or table format. +

P

PCR-GLOBWB +

Among others monthly precipitation, temperature, and reference evaporation +

W

WDUNE +

Arc ASCII grids of topography and non-erodible basement. Program will create input grids also. +

D

Delft3D +

Area schematization (mesh, bathymetry/topography, characteristics of structures, open boundary locations), process selection, initial conditions, forcings (boundary,atmospheric), time step, time frame, numerical settings, output options +

R

ROMSBuilder +

Backend: ROMSBuilder is written in Python and the main classes are ComponentBuilder.py and ROMSComponentBuilder.py. Default inputs are provided through roms_builder_input.cfg file. The three required input set on the tab dialogs for creating the new ROMS component are, Header file path, this is the path to your header (*.h) file. The other option is to enter value into the tab dialogs. ex. /home/csdms/sims/roms_builder/upwelling Application name, this should be the name of your new ROMS Application and must be specified in UPPERCASE. ex. UPWELLING New component name, this is the name of the new component. As bocca cannot have two components with the same name, every time you create a new component the name should be unique. +

E

Ecopath with Ecosim +

Basic input requires: Habitat area, Biomass in habitat area, Production/biomass, Consumption/biomass, Ecotrophic efficiency, Production/consumption, Unassimilated consuption, detritus import +

M

Mrip +

Basic parameters for a sediment transport model (grain size, efficiency coefficients, coefficient of friction, wave friction factor, density, etc) most are in there using values from the literature, but easily modified. Flow. (Sinusoidal, steady or combined flows can be created, as well as natural flow data can be used.) A random "turbulent" flow is imposed - this needs a magnitude. Jump fraction - given distance sediment moves with flow +

S

STWAVE +

Bathymetry Incident Wave Spectra Current Fields +

L

Landlab +

Because this is a toolkit for model building, there are no set input parameters. Rather, developers use the code to create their own models, with their own unique inputs. The ModelParameterDictionary tool provides formatted ASCII input for model parameters. The I/O component also handles input of digital elevation models (DEMs) in standard ArcInfo ASCII format. +

M

MIDAS +

Bed shear stress distribution and derivitives, Sediment transport parameters, Hiding function option (Komar / Egaziaroff), Saltation height option (Bridge / Einstein), Grain size and density distribution control parameters, Grain density values, Weight proportion of available bed material in each size-density fraction, Initial boundary condition (clear water inflow / equilibrium condition / well or not erosion or diposition in the dead of the reach) +

R

RivMAP +

Binary channel mask imagery (georeferencing optional). Imagery through time can be input to assess planform changes. +

E

ENTRAIN +

Boundary Reynolds Number and Grain Size +