Record Display for the EPA National Library Catalog


Main Title 3DFATMIC Three dimensional subsurface flow, fate and transport of microbes and chemicals model user's manual version 1.0
Author Yeh, G. T. ; Cheng, J. R. ; Short, T. E.
CORP Author Pennsylvania State Univ., University Park. Dept. of Civil and Environmental Engineering.;National Risk Management Research Lab., Ada, OK. Subsurface Protection and Remediation Div.
Publisher U.S. Environmental Protection Agency, Office of Research and Development, National Risk Management Research Laboratory,
Year Published 1997
Report Number EPA/600/R-97/053; EPA-R-818322
Stock Number PB97-205413
OCLC Number 39099069
Subjects Computer simulation ; Subsurface drainage ; Ground water flow
Additional Subjects Ground water ; Chemical compounds ; Microorganisms ; Environmental transport ; Subsurface flow ; Three-dimensional models ; Ecological concentration ; Dispersion ; Diffusion ; Advection ; Biodegradation ; Chemical reactions ; Three-dimensional flow ; Grid generation(Mathematics) ; Mathematical models ; Euler equations ; Lagrangian functions ; Numerical analysis ; User manuals(Computer programs) ; 3DFATMIC model ; Environmental fate ; Density dependent flow
Internet Access
Description Access URL
Library Call Number Additional Info Location Last
ELBD  EPA 600-R-97-053 AWBERC Library/Cincinnati,OH 04/09/1999
EMBD  EPA/600/R-97/053 NRMRL/GWERD Library/Ada,OK 05/22/1998
NTIS  PB97-205413 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation ix, 261 p. : ill. ; 1997.
In order to meet the objectives of having a realistic tool for predicting and assessing if a bioremediation technology can be successful implemented, The 3DFATMIC model has been developed. This numerical model simulates (1) the fate and transport of multiple microbes, electron acceptors, substrates, and nutrients and density-dependent fluid flow in saturated-unsaturated subsurface media under either steady-state or transient conditions; (2) multiple distributed and point sources/sinks as well as boundary sources; and (3) processes which degrade and transform contaminants, cause the growth and death of microbes, and control the fluid flow.
Project Officer, Thomas E. Short "EPA/600/R-97/053." "August 1997." "PB97-205413."