Environmental Engineering Reference
In-Depth Information
Information.
http://www.osti.gov/bridge/servlets/purl/13487-CVTUXk/webviewable/13487.PDF
(accessed
September 4, 2007).
Huling, S.G. and Pivetz, B.G., 2006, In-situ chemical oxidation. EPA Engineering Issue Paper EPA/600/R-06/072.
Innovative Engineering Solutions, Inc. (IESI), 2008, Microcosm testing and design of a bioenhancement reme-
diation system, Michigan (1,4 dioxane).
http://www.iesionline.com/projects/Michigan.pdf
(accessed
August 24, 2008).
International Organization for Standardization (ISO), 2005, Space environment (natural and artii cial)—
com/pdf/ISO_DIS_21348_E_revB.pdf
(accessed September 21, 2008).
Isotec
, 2008, ISOTEC technology effectively treats 1,4-dioxane.
http://www.insituoxidation.com/images/
Isotec%201-4%20dioxane.pdf
(accessed December 14, 2008).
Johns, M.M., Marshall, W.E., and Toles, C.A., 1998, Agricultural by-products as granular activated carbons for
absorbing dissolved metals and organics.
Journal of Chemical Technology and Biotechnology
71:
131-140.
Kelley, S.L., Aitchison, E.W., Deshpande, M., Schnoor, J.L., and Alvarez, P.J.J., 2001, Biodegradation of 1,4-
dioxane in planted and unplanted soil: Effect of bioaugmentation with
Amycolata
sp. CB1190.
Water
Research
35(16): 3791-3800.
Kerfoot, W.B., 2008,
In situ
1,4-dioxane remediation at HVOC sites. In: B.M. Sass (Ed.),
Proceedings of the
Sixth International Conference on Remediation of Chlorinated and Recalcitrant Compounds
. Columbus,
OH: Battelle Press.
Kerfoot, W.B. and Brolowski, A., 2006,
In-situ
1,4 dioxane remediation in HVOC sites. Paper presented at The
umasssoils.com/abstracts2005/Tuesday/ozone.htm
(accessed August 15, 2007).
Kessel, L., Hajali, P., Nielsen, B., and Olivo, K., 2005, Competitive contaminant destruction during ozone-
peroxide chemical oxidation: Implications for in-situ remediation of 1,4 dioxane. In:
15th Annual West
Coast Conference on Soil, Sediment and Water of the Association for Environmental Health and Sciences
(AEHS)
, San Diego, CA.
Kim, C.G., Seo, H.J., and Lee, B.R., 2006, Decomposition of 1,4-dioxane by advanced oxidation and
biochemical process.
Journal of Environmental Science and Health, Part A
41: 599-611.
Kishimoto, N., Yasuda, Y., Oomura, T., and Ono, Y., 2005, Ozonation combined with electrolysis as an alter-
native technology for removing 1,4-dioxane from landi ll leachates. In: R. Cossu and R. Stegmann (Eds)
Sardinia 2005, 10th International Waste Management and Landi ll Symposium
, Cagliari, Italy. CISA,
Environmental Sanitary Engineering Centre, Italy.
Masten, S.J., 2004, Chemical oxidation treatment technologies: Gelman Sciences Dioxane Project, Ann Arbor,
Masten_Community_Meeting.ppt
(accessed October 3, 2007).
Mehrvar, M., Anderson, W.A., and Moo-Young, M., 2000, Photocatalytic degradation of aqueous tetrahydro-
furan, 1,4-dioxane, and their mixture with TiO
2
.
International Journal of Photoenergy
2: 67-80.
Nakajima, A., Sasaki, H., Kameshima, Y., Okada, K., and Harada, H., 2007, Effect of TiO
2
powder addition on
sonochemical destruction of 1,4-dioxane in aqueous systems.
Ultrasonics Sonochemistry
14(2):
197-200.
Nakajima, A., Tanaka, M., Kameshima, Y., and Okada, K., 2004, Sonophotocatalytic destruction of 1,4-dioxane
in aqueous systems by HF-treated TiO
2
powder.
Journal of Photochemistry and Photobiology A:
Chemistry
167: 75-79.
Odah, M.M., Powell, R., and Riddle, D.J., 2005, ART in-well technology proves effective in treating
1,4- dioxane contamination.
Remediation Journal
15(3): 51-64.
Pall Corporation, 2004,
Final Feasibility Study & Proposed Interim Response Plan for the Unit E Plume.
Ann
Arbor, MI: Pall Life Sciences Corporation.
Pan, S. and Chen, H., 2006, Anaerobic degradation of 1,4-dioxane under humic-reducing or Fe(III)-reducing
conditions. The 231st American Chemical Society National Meeting, Abstract ENVR 144.
Parales, R.E., Adamus, J.E., White, N., and May, H.D., 1994, Degradation of 1,4-dioxane by an
actinomycete
in pure culture.
Applied and Environmental Microbiology
60(12): 4527-4530.
Patt, T.E. and Abebe, H.M., 1995, United States Patent 5,399,495: Microbial degradation of chemical pollutants.
html
(accessed September 12, 2007).
Pintauro, P.N. and Jian, K., 1995, United States Patent 5,387,378: Integral asymmetric l uoropolymer pervapo-
www.patentstorm.us/patents/5387378-description.html
(accessed October 12, 2007).
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