Environmental Engineering Reference
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Powell, R.M., Puls, R.W., Hightower, S.K., and Clark, D.A. 1995. Corrosive and
Geochemical Mechanisms Influencing in situ Chromate Reduction by Metallic
Iron, 209th American Chemical Society National Meeting, Anaheim, CA,
Division of Environmental Chemistry Conference Proceedings Vol. 35, 784-787.
Reddy, K.R. and Cameselle, C. 2009. Electrochemical Remediation Technologies for Polluted
Soils, Sediments and Groundwater , John Wiley &Sons, Hoboken, New Jersey, USA.
Roine, A. 2007. HSC Chemistry V.6.12. Outotec Research Oy, Finland.
Sar, P. and D'Souza, S.F.D. 2001. Biosorptive uranium uptake by a Pseudomaonas
strain: characterization and equilibrium studies. Journal of Chemical Technology
and Biotechnology , 76, 1286-1294.
Schad, H. and Grathwohl, P. 1998. Funnel and gate systems for in-situ treatment of
contaminated groundwater at former manufactured gas plant sites, in: Burmeier,
H. (ed.), Treatment Walls and Permeable Reactive Barriers , Vol. 229, 56-65, NATO
CCMS, Vienna.
Schmidt-Bleek, F. 1998. Das MIPS-Konzept , Droemer Knaur, München.
Schöner, A., Noubactep, C., Büchel, G., and Sauter, M. 2009. Geochemistry of natu-
ral wetlands in former uranium milling sites (eastern Germany) and implica-
tions for uranium retention. Chemie der Erde—Geochemistry 69(Supplement 2),
91-107.
Seelmann-Eggebert, W., Pfennig, G., Münzel, H., and Klewe-Nebenius, H. 1981. Chart
of Nuclides. Kernforschungszentrum Karlsruhe.
Sharma, H.D. and Reddy, K.R. 2004. Geoenvironmental Engineering—Site remediation,
Waste Containment, and Emerging Waste Management Technologies , John Wiley &
Sons, Hoboken, New Jersey, USA.
Simon, F.G., Biermann, V., and Peplinski, B. 2008. Uranium removal from groundwa-
ter using hydroxyapatite. Applied Geochemistry 23(8), 2137-2145.
Simon, F.G., Ludwig, S., Meggyes, T., Stewart, D.I., and Roehl, K.E. 2005. Regulatory
and economic aspects, in: Roehl, K.E., Meggyes, T., Simon, F.G., and Stewart,
D.I. (eds.), Long-Term Performance of Permeable Reactive Barriers, Trace Metals and
Other Contaminants in the Environment , Vol. 7, 311-321, Elsevier, Amsterdam.
Simon, F.G., Meggyes, T., and McDonald, C. 2002. Advanced Groundwater Remediation—
Active and Passive Technologies , Thomas Telford, London.
Sivavec, T.M., Mackenzie, P.D., Horney, D.P., and Baghel, S.S. 1997. Redox-Active
Selection for Permeable Reactive Barriers, International Conference on Containment
Technology , St. Petersburg, USA.
Smyth, D.A., Shikaze, S.G., and Cherry, J.A. 1997. Hydraulic performace of per-
meable barriers for the in situ treatment of contaminated groundwater. Land
Contamination & Reclamation , 5(3), 131-137.
Starr, R.C. and Cherry, J.A. 1994. In situ remediation of contaminated ground water:
The funnel-and-gate system. Ground Water , 32(3), 465-476.
Taylor, L.E., Brown, T.J., Benham, A.J., Lusty, P.A.J., and Minchin, D.J. 2006. World
Mineral Production 2000-04, British Geological Survey , Keyworth, Nottingham.
Tratnyek, P.G., Scherer, M.M., Johnson, T.L., and Matheson, L.J. 2003. Permeable reac-
tive barriers of iron and other zero-valent metals, in: Tarr, M.A. (ed.), Chemical
Degradation Methods for Wastes and Pollutants , Marcel Dekker, New York.
Vidic, R.D. and Pohland, F.G. 1996. Treatment Walls. Ground-Water Remediation
Technologies Analysis Center GWTAC, Technology Evaluation Report, TE-96-
01, Pittsburgh, PA.
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