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A list of all pages that have property "Describe output parameters model" with value "Total load mass flux". 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:TopoFlow-Channels-Dynamic Wave  + (This component computes the following variThis component computes the following variables, as grids:</br> Q = discharge (m^3/s)</br> u = flow velocity (m/s)</br> d = flow depth (m)</br> f = friction factor (none)</br> Rh = hydraulic radius (m)</br> S_free = free-surface slope (m/m)</br>The user can choose which, if any, of these to save. Each may be saved as a grid sequence, indexed by time, in a netCDF file, at a specified sampling rate. Each may also be saved for a set of "monitored" grid cells, each specified as a (row,column) pair in a file with the name: <case_prefix>_outlets.txt. With this option, computed values are saved in a multi-column text file at a specified sampling rate. Each column in this file corresponds to a time series of values for a particular grid cell. For both options the sampling rate must no smaller than the process timestep. rate must no smaller than the process timestep.)
  • Model:TopoFlow-Channels-Kinematic Wave  + (This component computes the following variThis component computes the following variables, as grids:</br> Q = discharge (m^3/s)</br> u = flow velocity (m/s)</br> d = flow depth (m)</br> f = friction factor (none)</br> Rh = hydraulic radius (m)</br> S_free = free-surface slope (m/m)</br>The user can choose which, if any, of these to save. Each may be saved as a grid sequence, indexed by time, in a netCDF file, at a specified sampling rate. Each may also be saved for a set of "monitored" grid cells, each specified as a (row,column) pair in a file with the name: <case_prefix>_outlets.txt. With this option, computed values are saved in a multi-column text file at a specified sampling rate. Each column in this file corresponds to a time series of values for a particular grid cell. For both options the sampling rate must no smaller than the process timestep. rate must no smaller than the process timestep.)
  • Model:CellularFanDelta  + (Time series of 2D topography/bathymetry and water discharge. 3D stratigraphy grid (currently model is single grain-size, so stratigraphy only stores deposit age))
  • Model:Delft3D  + (Time series of 2D/3D map data and selected point data, particle tracks)
  • Model:TUGS  + (Time variation of longitudinal profile, sediment flux and grain size distributions of bedload, surface and subsurface sediment.)
  • Model:Barrier Inlet Environment (BRIE) Model  + (Timeseries of: Overwash fluxes (m3/m/s) Inlet fluxes (m3/m/s) Shoreface toe location (m) Shoreline location (m) Back-barrier location (m) Barrier Height (m) Inlet locations alongshore (m))
  • Model:PHREEQC  + (To many to list here, see ''Description of Input and Examples for PHREEQC Version 3 - A computer program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical calculations'.)
  • Model:PyDeltaRCM  + (Toggle on/off in input file: - PNG files of eta, stage, depth - grids of eta, stage, depth (as netCDF4) - grids of sand fraction in stratigraphy (as netCDF4))
  • Model:TopoFlow  + (Too many to list here. Please see the HTML help system and the wiki pages for all of the process components.)
  • Model:MODFLOW  + (Too many to mention here, see: http://water.usgs.gov/nrp/gwsoftware/modflow2000/modflow2000.html)
  • Model:Area-Slope Equation Calculator  + (Two output maps ESRI ASCII format: # Alpha (coefficient); # Constant.)
  • Model:SISV  + (Typical flow quantities: Velocities, Concentrations, Vorticity, Passive marker location)
  • Model:OlaFlow  + (VOF, U, turbulence variables...)
  • Model:Pllcart3d  + (Velocities and concentration fields of the particles are stored to binary files at given time steps.)
  • Model:DELTA  + (Vertically-integrated flow velocities and bed elevations as functions of time and two horizontal dimensions)
  • Model:2DFLOWVEL  + (Vertically-integrated flow velocities and water surface elevations as functions of time and two horizontal dimensions)
  • Model:WOFOST  + (WOFOST simulates the growth of a specific WOFOST simulates the growth of a specific crop and its interaction with the soil. Its main output variables consist of crop variables (like total biomass, yield, phenological development and leaf area index) and soil variables like soil water content. More recent versions of WOFOST also include the N/P/K amounts in the crop organs and soil.N/P/K amounts in the crop organs and soil.)
  • Model:MCPM  + (Water level Water velocity Bed shear stress Suspended sediment concentration Bed elevation)
  • Model:DepthDependentTaylorDiffuser  + (_info = { "bedrock__elevation": { _info = {</br> "bedrock__elevation": {</br> "dtype": float,</br> "intent": "out",</br> "optional": False,</br> "units": "m",</br> "mapping": "node",</br> "doc": "elevation of the bedrock surface",</br> },</br> "soil__depth": {</br> "dtype": float,</br> "intent": "inout",</br> "optional": False,</br> "units": "m",</br> "mapping": "node",</br> "doc": "Depth of soil or weathered bedrock",</br> },</br> "soil__flux": {</br> "dtype": float,</br> "intent": "out",</br> "optional": False,</br> "units": "m^2/yr",</br> "mapping": "link",</br> "doc": "flux of soil in direction of link",</br> },</br> "soil_production__rate": {</br> "dtype": float,</br> "intent": "in",</br> "optional": False,</br> "units": "m/yr",</br> "mapping": "node",</br> "doc": "rate of soil production at nodes",</br> },</br> "topographic__elevation": {</br> "dtype": float,</br> "intent": "inout",</br> "optional": False,</br> "units": "m",</br> "mapping": "node",</br> "doc": "Land surface topographic elevation",</br> },</br> "topographic__slope": {</br> "dtype": float,</br> "intent": "out",</br> "optional": False,</br> "units": "m/m",</br> "mapping": "link",</br> "doc": "gradient of the ground surface",</br> },</br> }t of the ground surface", }, })
  • Model:DetachmentLtdErosion  + (_info = { "surface_water__discharg_info = {</br> "surface_water__discharge": {</br> "dtype": float,</br> "intent": "in",</br> "optional": False,</br> "units": "m**3/s",</br> "mapping": "node",</br> "doc": "Volumetric discharge of surface water",</br> },</br> "topographic__elevation": {</br> "dtype": float,</br> "intent": "inout",</br> "optional": False,</br> "units": "m",</br> "mapping": "node",</br> "doc": "Land surface topographic elevation",</br> },</br> "topographic__slope": {</br> "dtype": float,</br> "intent": "in",</br> "optional": True,</br> "units": "-",</br> "mapping": "node",</br> "doc": "gradient of the ground surface",</br> },</br> }t of the ground surface", }, })
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