Property:Describe output parameters model

Grids of water surface elevation, discharge, bed elevation, and vegetation density values for each cell. Additionally, sand fraction of each vertical cell within a grid cell.  +

H, fluxes, discharge, catchment geom, etc, at all time steps, as welle as grid connectivity  +

HSPF produces a time history of the runoff flow rate, sediment load, and nutrient and pesticide concentrations, along with a time history of water quantity and quality at any point in a watershed. Simulation results can be processed through a frequency and duration analysis routine that produces output compatible with conventional toxicological measures (e.g., 96-hour LC50).  +

Hexagon DEM, flow direction, flow accumulation, stream grid, stream segment, stream order, stream confluence, subbasin, watershed boundary, etc.  +

Hydrologic information derived from DEM  +

Hydrologic model discretization, input files for GSFLOW, output files from GSFLOW (hydrologic model)  +

In addition to modeling the generation and transport of runoff flows, SWMM can also estimate the production of pollutant loads associated with this runoff. The following processes can be modeled for any number of user-defined water quality constituents: * dry-weather pollutant buildup over different land uses * pollutant washoff from specific land uses during storm events * direct contribution of rainfall deposition * reduction in dry-weather buildup due to street cleaning * reduction in washoff load due to BMPs * entry of dry weather sanitary flows and user-specified external inflows at any point in the drainage system * routing of water quality constituents through the drainage system * reduction in constituent concentration through treatment in storage units or by natural processes in pipes and channels  +

It can output local velocity, vorticity, concentration, stream-function, and all derivatives of velocity necessary to calculate dissipation, viscous momentum diffusion, kinetic energy flux, work by pressure forces, and change in kinetic energy. These quantities are written out in a binary file. It also has routines for calculating the local height profile and tip position of gravity currents and internal bores, which are outputted every time step and stored as ASCII txt files.  +

It outputs all the variables used in the advection-diffusion equation describing bed evolution for both shallow water wave assumptions (all labeled as *_s) and linear theory (labeled as *_lh).  +

Key indices, Mortalities, Consumption, Respiration, Niche overlap, Electivity, Search rates and Fishery forms.  +

Lake grid  +

Land cover and elevation prediction rasters under SLR conditions through 2100.  +

Long profile (x, z); output sediment discharge  +

Major quantities: mud floc concentration, flow velocity in longshelf and cross-shelf direction. Other quantities: TKE, turbulent dissipation rate, floc size (if floc dynamics turn on), bottom stress.  +

Mangrove properties and Delft3D-FM output  +

Many: pressure, saturation, temperature, energy fluxes, flow, etc.  +

Maps of geomorphology, discharge, deposition, isopachs, stratigraphic thickness, grain size, contour, subsidence, and environment  +

Marsh boundary - gives the position of the backbarrier marsh edge through time Shorelines - gives the position of the barrier shoreline through time step number - saves the surface morphology and stratigraphy for the model at each time step  +

Marsh depth, mudflat depth, mudflat width  +

Marsh elevation Pond area and location  +