EFDC Explorer

EFDC_Explorer (EE) is a Windows-based GUI for pre- and post processing of the Environmental Fluid Dynamics Code (EFDC). The program is developed and supported by the engineering company DSI.[1] EFDC_Explorer is designed to support model set-up, grid generation (Cartesian and orthogonal curvilinear), testing, calibration, and visualization of model results (Craig, 2020).[2] EE supports hydrodynamics, sediment/toxics transport, particle tracking and the coupled water quality model HEM3D.[3]

EFDC_Explorer
Developer(s)DSI, LLC
Stable release
EFDC_Explorer10.3.4 / 29 June, 2021
Preview release
EFDC_Explorer10.3.4 / 29 June, 2021
Written inC# .NET
Operating systemWindows XP, Windows Vista, Windows 7, Windows 8, Windows 8.1, Windows 10, Windows Server (2012)
PlatformMicrosoft Windows, Linux (EFDC only)
Size~155 MB
Available inEnglish
Websitewww.eemodelingsystem.com//

EFDC was originally developed at Virginia Institute of Marine Science (Hamrick, 1992).[4] It is open-source software and is a widely used, EPA accepted model.[5] DSI continues to develop EFDC using the name EFDC+. Enhancements include adding multithreading capability and more recently full parallel computing with MPI (Message Passing Interface). EFDC_Explorer is part of the EE Modeling System (EEMS) which includes EFDC+, the enhanced version of EFDC, and CVLGrid, a curvilinear Cartesian grid generator.

EFDC+/EFDC_Explorer Functions
  • EFDC Pre- & Post-Processing
  • 2D & 3D Animations
  • Model Results Visualization
  • Data vs. Model Comparisons
  • Real-time data processing and simulation

Simulation of:

Example applications

EFDC_Explorer has been in distribution since 2003, and is now being used in over 60 countries.

Newtown Creek, New York City: Newtown Creek was proposed as a potential Superfund site in September 2009, and received that designation on September 27, 2010. EFDC and EFDC_Explorer are being used to support the remedial investigation and feasibility study to prepare for environmental remediation.

Ohio River, USA: "This model of the Ohio River was designed to assist in a storm impacts study for Cincinnati City. The study related to the evaluation of combined sewer overflows (CSOs) and other wet weather impacts on the water quality on the Ohio River, and to evaluate resulting benefits from certain abatement scenarios."[6]

Lake Washington, WA, "DSI has developed the Lake Washington Real-time Temperature Simulation as an example of a real-time data and modeling facility to serve the scientific community in Seattle, Washington, US."[7]

References
  1. DSI Website http://www.ds-intl.biz/
  2. EFDC_Explorer Knowledge Base https://eemodelingsystem.atlassian.net/wiki/spaces/EEREF/overview
  3. EFDC+ Features https://eemodelingsystem.atlassian.net/wiki/spaces/ETG/overview
  4. Hamrick, John M., A three-dimensional environmental fluid dynamics computer code : theoretical and computational aspects, Virginia Institute of Marine Science, 1992 http://www.worldcat.org/oclc/27963113
  5. Environmental Protection Agency, Exposure Assessment Models https://www.epa.gov/exposure-assessment-models/efdc
  6. Demonstration Models for EE https://www.eemodelingsystem.com/user-center/modeling-resources/demonstration-models
  7. Lake Washington Real-time Temperature Simulation http://westlake.ds-intl.biz/
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