Two-Dimensional Subsurface Flow, Fate and Transport of Microbes and Chemicals (2DFATMIC) Model
This model simulates subsurface flow, fate, and transport of contaminants that are undergoing chemical or biological transformations. This model is applicable to transient conditions in both saturated and unsaturated zones.
The flow module is a Galerkin finite element solution of Richard's equation. The transport module is a hybrid Lagrangian-Eulerian approach, with an adapted zooming and peak capturing algorithm.
This model can almost eliminate spurious oscillation, numerical dispersion, and peak clipping due to advective transport.
|Release Date||August 1997|
|Development Status||General Release|
|Operating System||UNIX, DOX|
Source Code (107 K) (ZIP)
Input and Output Datasets (663 K) (ZIP)
US EPA. (1997) "2DFATMIC, Two-Dimensional Subsurface Flow, Fate, and Transport of Microbic Chemical Model - User's Manual, Version 1.0 (PDF)" (113 pp, 672 K, About PDF) Publication No. EPA/600/R-97/052.