Environmental Engineering Reference
In-Depth Information
McDonald M.G. and Harbaugh A.W. 1988.
A Modular Three-Dimensional Finite-
Difference Ground-Water Flow Model: Techniques of Water-Resources Investigations
of the United States Geological Survey
, Book 6. USGS, USA. p. 586.
McMahon P.B., Dennehy K.F., and Sandstrom M.W. 1999. Hydraulic and geochemi-
cal performance of a permeable reactive barrier containing zero-valent iron,
Denver Federal Center.
Groundwater
37(3): 396-404.
Morrison S., Carpenter C., and Metzler D. 2002. Design and Performance of a
Permeable reactive barrier for containment of uranium and associated con-
taminants at Monticello, Utah, USA. In
Groundwater Remediation of Metals,
Radionuclides, and Nutrients with Permeable Reactive Barriers.
Morrison S., Metzler D.R., and Carpenter C.E. 2001. Uranium precipitation in a
Permeable Reactive Barrier by progressive irreversible dissolution of zerovalent
iron.
Environmental Science and Technology
35: 385-390.
Navarro A., Chimenos J.M., Muntaner D., and Fernández A. 2006. Permeable reactive
barriers for the removal of heavy metals: Lab-scale experiments with low-grade
magnesium oxide.
Ground Water Monitoring & Remediation
26(4): 142-152.
Orth W.S. and Gillham R.W. 1996. Dechlorination of tricholoroethylene in aqueous
solution using FeO.
Environmental Science and Technology
30(1): 66-71.
Parkhurst D.L. and Appelo C.A.J. 1999. User's guide to PHREEQC (Version 2)—A
computer program for speciation, batch-reaction, one-dimensional transport,
and inverse geochemical calculations. US Geological Survey Water-Resources
Investigations Report, 99-4259.
Parkhurst D.L., Kipp K.L., Engesgaard P., and Charlton S.R. 2004. PHAST—A pro-
gram for simulating ground-water flow, solute transport, and multicomponent
geochemical reactions.
U. S. Geological Survey Techniques and Methods 6—A8
, 154
pp.
Pollock D.W. 1989. Documentation of computer programs to compute and dis-
play pathlines using results from the U.S. Geological Survey Modular three-
dimensional finite-difference ground-water flow model. US Geological Survey
Open-File Report, 89-381.
Powell R.M., Puls R.W., Hightower S.K., and Sabatini D.A. 1995. Coupled iron cor-
rosion and chromate reduction: Mechanisms for subsurface remediation.
Environmental Science and Technology
29(8): 1913-1922.
PRC Environmental Management, Inc. 1996. Moffett Federal Airfield California
West-Side Aquifers Treatment System Phase 2 Cost Opinion. Prepared for the
Department of the Navy under Comprehensive Long-Term Environmental
Action Navy (CLEAN I).
Prommer H., Aziz L.H., Bolaño N., Taubald H., and Schüth C. 2008. Modelling of geo-
chemical and isotopic changes in a column experiment for degradation of TCE
by zero-valent iron.
Journal of Contaminant Hydrology
97: 13-26.
Prommer H., Barry D.A., and Zheng C. 2003. MODFLOW/MT3DMSbased reactive
multicomponent transport modeling.
Ground Water
41: 247-257.
Rabideau P.E. Raghavendra S., and Craig J.R. 2005. Analytical models for the design
of iron-based permeable reactive barriers.
Journal of Environmental Engineering
131(11): 1589-1597.
Roberts A.L., Totten L.A., Arnold W.A., Burris D.R., and Campbell T.J. 1996. Reductive
elimination of chlorinated ethylenes by zero-valent metals.
Environmental
Science and Technology
30(9): 2654-2659.
Search WWH ::
Custom Search