Model Keywords:
Clean Water Act (CWA), Biogeochemical (e.g., cycling, growth, consumer-resource), Transformation (e.g., chemical reaction, partitioning, biodegradation), Transport (e.g., advection, bulk, dispersion, diffusion), Water (e.g., surface water, ground water), Point Source (e.g., tank, spill, stack, discharge pipe), Biological (e.g., microbial), Chemical (e.g., organic, inorganic, toxics), Physical (e.g., radiation, heat particles, fibers, noise), Toxic Substances Control Act (TSCA), Comprehensive Environmental Response, Compensation and Liability Act (CERCLA), Resource Conservation and Recovery Act (RCRA),
Model Detail:
Model Evaluation
:EFDC has been tested against analytical solutions, and has been peer reviewed for work done on Superfund Sites. The model has an application history that spans the last 10 years and is used routinely in the US and world.
Model URL
:http://www.epa.gov/athens/wwqtsc
Model Guidance Documents
:Watershed and Water Quality Modeling Technical Support Center maintains an EFDC Users Manual and is included with the installation package. The Users Manual is periodically updated as the model is enhanced.
Model Decision Documents
:EFDC has been routinely used throughout the US and World for water quality modeling. Searches of the literature should provide more details about specific applications of the model.
Model Download Information
:The EFDC model is
available to be downloaded.
modelcontactinfo
:Tim Wool
U.S. EPA ORD/NERL-ERD
Watershed and Water Quality Modeling Technical Support Center
Athens, GA
wool.tim@epa.gov
706-355-8312
Model Inputs
:EFDC uses stretched or sigma vertical coordinates and Cartesian or curvilinear, orthogonal horizontal coordinates to represent the physical characteristics of a waterbody. It solves three-dimensional, vertically hydrostatic, free surface, turbulent averaged equations of motion for a variable-density fluid. Dynamically-coupled transport equations for turbulent kinetic energy, turbulent length scale, salinity and temperature are also solved. The EFDC model allows for drying and wetting in shallow areas by a mass conservation scheme.
Waterbody broken up into computational grid, forcing functions such as: flow, water surface elevation, meteorological data and initial conditions. More complex the application the greater the input requirements.
Model Outputs
:User selects the output variables from the model. All model output can be viewed using a graphical/tabular post processor that is included with the WASP6 model. It is easy to take results from EFDC to other models or other software for analysis and/or publication.
Model Computer Requirements:
Model Operating Systems Needs
:Windows 95 or higher
UNIX
Linux
Macintosh
Model Hardware Needs
:Standard Desktop System. Higher performance machine maybe need for large simulations.
Model Programming Language(s)
:Simulation Model FORTRAN
Utility Programs Visual Basic, C++, FORTRAN
To use Graphical Post Processor must install WASP6
other_req
:FORTRAN Compiler to change dimensions of model. Executable included in distribution should work for most applications.