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Technology with the Environment in Mind
Section 9 of 10
Novel Wastewater Reclamation Technology Meets Environmental and Business Challenges
REFERENCES
[1] APHA, AWWA, WPCF, Standard Methods for the Examination of Water and Wastewater, 20th Edition, American Public Health Association, American Water Works Association, Water Pollution Control Federation, Washington, D.C., 1998.
[2] Comerton, A.M., Andrews, R.C., and Bagley, D.M., "Evaluation of an MBR-RO System to Produce High Quality Reuse Water: Microbial Control, DBP Formation and Nitrate," Wat. Res., 39, 3982–3990, 2005.
[3] Conner, W., Liu, J., and Yee, J., "Comparative Evaluation of MBR/RO and PAC Enhanced MBR/RO Treatment of Refinery Oily Wastewater," in Proceedings of the 80th Annual Water Environment Federation Technical Conference, San Diego, CA, October 13–17, 2007.
[4] DeCarolis, J., S., Adham, J., Oppenheimer, W.H., Pearce, L., and Wasserman, L., "Integration of MBR Technology and Desalting Membranes for Water Reuse," Membrane Technology Conference & Exposition, Phoenix, AZ, March 6–9, 2005.
[5] Den, W., Ko, F.-H., and Huang, T.-Y., "Treatment of Organic Wastewater Discharged from Semiconductor Manufacturing Process by Ultraviolet/hydrogen Peroxide and Biodegradation," IEEE Transactions on Semiconductor Manufacturing, 15, 540–551, 2002.
[6] Hashimoto, N. and Sumino, T., "Wastewater Treatment Using Activated Sludge Entrapped in Polyethylene Glycol Prepolymer," Journal of Fermentation and Bioengineering, 86, 4, 424–426, 1998.
[7] Lin, S.H. and Yang, C.R., "Chemical and Physical Treatments of Chemical Mechanical Polishing Wastewater from Semiconductor Fabrication," Journal of Hazardous Materials, 108, 1–2, 103–109, 2004.
[8] Metcalf and Eddy, Inc., Wastewater engineering: Treatment, and Reuse, 4th ed., Revised by G. Tchobanoglous , F.L. Burton, and H.D. Stensel, McGraw-Hill, New York, 2003.
[9] Patel, M., Knoell, T., Sevenandt, W., and Lacy, S., "70 MGD Indirect Potable Ruse: Optimization of Orange County's Groundwater Replenishment System," in Proceedings of the 80th Annual Water Environment Federation Technical Conference, San Diego, CA, October 13–17, 2007.
[10] Tsuzakai, M. and Nakamoto, S., "Biodegradation of Tetramethylammonium, an Ingredient of a Photoresist Developer, by Bacteria Isolated from Activated Sludge," NEC Research and Development, 97, 8–12, 1990.
[11] Urakami, T.; Araki, H.; and Kobayashi, H., "Isolation and Identification of Tetramethylammonium-biodegrading Bacteria," Journal of Fermentation and Bioengineering, 70, 1, 41–44, 1990.
[12] Wallis-Lage, C., Freeman, S., Steichen, M., Bates, J., Peries, I., and McEvoy, J., "Reuse Downunder: Membranes Provide Drought Relief for Queensland," in Proceedings of the 80th Annual Water Environment Federation Technical Conference, San Diego, CA, October 13–17, 2007.
[13] Wilson, S., Wilson, D., and Melcer, H., "Evaluating Applicable Treatment Technologies for an Integrated and Sustainable Food Processing Facility," in Proceedings of the 80th Annual Water Environment Federation Technical Conference, San Diego, CA, October 13–17, 2007.
[14] Electronics Manufacturing, Pollution Prevention and Abatement Handbook, World Bank Group, 1998.
[15] You, S.-H., Tseng, D.-H., and Guo, G.-L., "A Case Study of the Wastewater Reclamation and Reuse in Semiconductor Industry," Resource Conservation and Recycling, 32, 1, 73–81, 2001.
Section 9 of 10
