The following lists provide a summary of the major features of EFDC_Explorer. The lists are grouped into three primary categories based on the general use of each feature. The first group contains general purpose features while the other two groups summarize the major pre- and post-processing features.
It is recognized that many more options and features could be added to EFDC_Explorer. It is anticipated that many new features will be added as resources are available.
General
- Graphical interface to most of the commonly used EFDC features.
- Graphical interface for EFDC (Sigma, GVC and SGZ versions) sub-models:
- Hydrodynamics
- Density dependent flow state variables: Salinity/Temperature
- Tracer
- Sediment Transport
- Toxics
- Water Quality with Sediment Diagenesis
- Lagrangian Particle Tracking and Oil Spill
- Rooted Plant and Epiphyte Model
- Linkage of External Wave Model Results to EFDC
- Wind Generated Waves
- Ice formation and melt
Extensive visualization and point and click inquiries of input and output data.Anchor OLE_LINK1 OLE_LINK1 - Extensive use of popup tips to help the user select the proper inputs.
- Included EE User Manual Help file coupled to forms (F1).
- Extensive error and range checking for user inputs.
- Many functions work with Calendar date and/or Julian dates.
- Binary file access method to allow the access to files > 4.2 GB.
- Any number of snapshots that can be written by EFDC and managed/used by EFDC_Explorer.
- Output Plots and Tables in either Metric or English units.
- Ability to read, write and display ESRI® .SHP files.
- Ability to read, write and display Mapinfo® .tab files.
- Included EE User Manual Help file coupled to forms (F1).
- Ability to write KML files for grid and model 2D fields.
- Ability to user multiple processors (OMP) to significantly reduce run times.
- Double click to run a project (*.EE extension).
- SWAN control and linkage to EE system
- No need for template files for model setup
- Continuing support and development of the utility.
...
- Pre-Processor for the efdc+ & EFDC_GVC 2D-3D Versions.
- Import many previous versions of the main control file (i.e. EFDC.INP).
- Courant # and Courant-FredrickFriedrichs-Levy Lewy calculator and display tools.
- Run logging.
- Status error window
...
- View/label cell maps.
- Quickly animate many of the results to the screen or an AVI file.
- Export results to the commercial graphics package TECPlot® or Google Earth.
- Compute model results statistics for current view or by polygon.
- Compass (north arrow)
- Overlay the model with line drawings and labels.
- Export NetCDF Output
- Display one or more geo-referenced bitmaps as a background to the model grid.
- Several views allow for transparent grid cells to view the background and model results.
- Capability to output bitmap images at user defined resolutions
- Display multiple "Timing Frames" to temporally reference results to model boundary conditions for the following types:
- Open boundaries
- Inflows/outflows
- Withdrawal/Return
- Winds
- Display spatial scales in various units.
- Generate a new model from the output of an existing model for any selected time,
- View water surface/depth maps, animations and time series.
- Transparent Cells for water depths/elevations and other water column results.
- Flood Inundation Mapping
- Compute/Display areal extents based on specified a minimum depth and duration.
- Compute/Display areal extents based on a Depth*Velocity Flood Hazard Factor.
- Compare up to 3 models on the same plot showing Areal Extents.
- Energy Mapping
- Compute/Display total head (WS Elevation + v2/2g).
- Compute FEMA Overtopping parameter (depth + v2).
- Low Pass Filter for Model Analysis
- View Sediment/Bottom results for any time output or animation, (by layer or averaged/totaled over the number of sediment layers):
- Bottom topography elevations,
- Bottom scour/deposition,
- Bottom grain size distributions,
- Bottom sediment mass distributions (by layer or totaled over the total number of layers (i.e. KB),
- Bottom sediment mass fractions (by layer or averaged over KB),
- Bottom sediment porosity (by layer or averaged over KB),
- Bed surface shear stress.
- View Velocity at multiple layers as magnitude or vector
- Vector Plots – anchor point for vectors
- Regular grid extraction for velocity plots
- Downstream Projection
- View Water Column results for any time output or animations
- Water Column reporting options
- By layer or averaged/totaled over the number of water column layers
- By specified depth or elevation
- Salinity,
- Temperature,
- Dye or a computed Age of Water (EFDC_DSI Only),
- Toxics,
- By class or Totals
- DOC Complexed
- Dissolved, and
- POC Adsorbed.
- Sediments (by class or totaled).
- Water quality parameters
- 22 EFDC modeled constituents
- Derived parameters like Chl-a, algal growth limiters, and TSI's.
- Anoxic volumes (User specified DO cutoff)
- Light penetration (Secchi Depth, Extinction Coefficients, % Irradiance).
- Water Column reporting options
- View boundary conditions map and view boundary condition time series.
- View profiles of sediment bed and water column properties with time.
- Store and quickly display time series calibration comparisons.
- Compare velocity data to other model runs or field data (e.g. ADCP)
- Compare model results from two different models to each other.
- Plot time series plots for boundary conditions
- View Sediment Diagenesis concentrations and nutrient fluxes
- View by class or total concentrations of PON, POP & POC
- View concentrations by diagenesis layer or totals
- View nutrient fluxes
- Model Metrics
- Grid Orthogonality map & statistics,
- Cell angle maps,
- Courant Number,
- Courant-Friedrichs-Levy Lewy (CFL) time step limits,
- Froude Number,
- Densimetric Froude Number,
- Celerity, and
- Richardson Number.
- View Longitudinal Profile plots
- Generate longitudinal plots of water column and bottom sediments results.
- User specified layer averaging (e.g. "1-3" will average the bottom three layers).
- Water column or bottom sediment data can be overlaid with bottom topography and/or water surface elevation/depth results and/or bed shear.
- Animations of the Longitudinal Profiles can be generated to the screen or AVI.
- Display timing frame in Time Series and Profile Plotter
- Overlay plan view plots with the following Calibration Data/Information:
- Station ID,
- Date/Time coordinated data values,
- Date/Time coordinated data residuals, and
- Data values and residuals can use the same depth averaging or specified layer options specified for the model results.
- View plotting and animation of Lagrangian Particle Tracking and Oil Spill.
- Ability to export one or more particle tracks to ASCII files for linkage to 3rd party applications.
- Particles can be assigned to specific groups for separate treatment and display.
- Particles can have an assigned settling rate or free floating.
- Lagrangian Particle Tracking (LPT) by time release
- Group Method for LPT implemented
- External LPT module integrated into EE
- Group Method for LPT implemented.
- Oil evaporation and biodegradation
- View plotting and animation of the Rooted Plant and Epiphyte Model (RPEM).
- Shoot carbon
- Root carbon
- Detritus carbon
- Epiphyte carbon
- Save plot scales, positions for the model and annotation boxes for reuse later to allow plots to be formatted exactly the same from run to run.
- Specialty Analysis Tools including:
- Habitat analysis based on water depth, temperature and other water column parameters.
- Ability to compute the location of a "target concentration" of any water column constituent along a user specified polyline, .e.g. river mile location of 2 ppt salinity.
- Output time series at a specified depth.
- Contour lines
- Wind and Velocity Rose Plots
- Photo Viewers in Time Series Forms
- Annotated Plan View of Model Domain in Time Series Form
- Flight Path Animations
Post-Processor- View Profile ViewSlice (Horizontal Profiles)
- View Velocity at multiple layers as magnitude or vector
- View Water Column results for any time output or animations
- Contour lines
- View ice thickness
...
- 2D plan view plots of model results compared by subtracting a "Comparison" model from the "Base" model.
- Compare water column input and model results between models.
- Ability to compare sediment bed conditions, bed shear stress and scour/deposition between models.
- Compare computed layer or depth averaged velocities between models.
- Grids do not need to be identical; however, they do need to partially overlap horizontally.
...