Application of the Nitritation and Anammox Process into Inorganic Nitrogenous Wastewater from Semiconductor Factory
Publication: Journal of Environmental Engineering
Volume 137, Issue 2
Abstract
The first full-scale nitritation and anaerobic ammonium oxidation (Anammox) processes for an inorganic wastewater of semiconductor factory were installed and performances were evaluated. Existing facilities of conventional nitrification and denitrification were retrofitted to a combination of the nitritation and Anammox process. Novel nitritation method, selective acceleration of ammonia oxidation by high concentration of inorganic carbon, was evaluated in full-scale aeration tank with carrier material. The ammonia conversion rate of the nitritation reactor was in the range of after start-up period, and stable nitritation was achieved for over 10 months. In an Anammox reactor, on-site cultivation of anammox bacteria was performed, and the most plausible reason for slower nitrogen conversion at the beginning was oxygen contamination into the reactor. After minimizing influence of oxygen contamination, design loading was achieved within 3 months of operation. After start-up period, stable Anammox reactions are maintained for over 10 months. The nitrogen removal rate after start-up period was in the range of . In combination with conventional denitrification process, soluble nitrogen in the final effluent was reduced below 8 mg/L.
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References
Abma, W. (2007). “The advance of Anammox.” Water, 21, 36–37.
Abma, W., et al. (2007). “Full-scale granular sludge Anammox process.” Water Sci. Technol., 55(8–9), 27–33.
Anthonisen, A. C., Loehr, R. C., Prakasam, T. B. S., and Srinath, E. G. (1976). “Inhibition of nitrification by ammonia and nitrous acid.” J. Water Pollut. Control Fed., 48(5), 835–852.
Bernet, N., Dangkong, N., Delgenès, J. -P., and Moletta, R. (2001). “Nitrification at low oxygen concentration in biofilm reactor.” J. Environ. Eng., 127(3), 266–271.
Dapena-Mora, A., Fernández, I., Campos, J. L., Mosquera-Corral, A., Méndez, R., and Jetten, M. S. M. (2007). “Evaluation of activity and inhibition effects on Anammox process by batch tests based on the nitrogen gas production.” Enzyme Microb. Technol., 40, 859–865.
Hellinga, C., Schellen, A. A. J. C., Mulder, J. W., van Loosdrecht, M. C. M., and Heijnen, J. J. (1998). “The SHARON process: An innovative method for nitrogen removal from ammonium-rich waste water.” Water Sci. Technol., 37(9), 135–142.
Imajo, U., Tokutomi, T., and Furukawa, K. (2004). “Granulation of Anammox microorganisms in up-flow reactors.” Water Sci. Technol., 49(5–6), 155–164.
Isaka, K., Sumino, T., and Tsuneda, S. (2008). “Novel nitritation process using heat-shocked nitrifying bacteria entrapped in gel carriers.” Process Biochem. (Oxford, U.K.), 43(3), 265–270.
Japanese standard method. (1997). Japan Sewage Works Association, Japan.
Kuypers, M. M., et al. (2003). “Anaerobic ammonium oxidation by Anammox bacteria in the Black Sea.” Nature (London), 422(6932), 608–611.
Liao, D., Li, X., Yang, Q., Zhao, Z., and Zeng, G. (2007). “Enrichment and granulation of Anammox biomass started up with methanogenic granular sludge.” World J. Microbiol. Biotechnol., 23, 1015–1020.
Strous, M., Kuenen, J. G., and Jetten, M. S. M. (1999). “Key physiology of anaerobic ammonium oxidation.” Appl. Environ. Microbiol., 65(7), 3248–3250.
Tokutomi, T. (2006). “Effect of inorganic carbon on nitrite accumulation in an aerobic granule reactor.” Water Sci. Technol., 53(12), 285–294.
van der Star, W. R. L., Miclea, A., van Dongen, U., Muyzer, G., Picioreanu, C., and van Loosdrecht, M. C. M. (2008). “The membrane bioreactor: A novel tool to grow Anammox bacteria as free cells.” Biotechnol. Bioeng., 101(2), 286–294.
Volcke, E. I. P., van Loosdrecht, M. C. M., and Vanrolleghem, P. A. (2006). “Controlling the nitrite:ammonium ratio in a SHARON reactor in view of its coupling with an Anammox process.” Water Sci. Technol., 53(4–5), 45–54.
Wett, B. (2006). “Solved upscaling problems for implementing deammonification of rejection water.” Water Sci. Technol., 53(12), 121–128.
Wett, B., and Rauch, W. (2003). “The role of inorganic carbon limitation in biological nitrogen removal of extremely ammonia concentrated wastewater.” Water Res., 37(5), 1100–1110.
Wett, B., Rostek, R., Rauch, W., and Ingerle, K. (1998). “pH-controlled reject-water-treatment.” Water Sci. Technol., 37(12), 165–172.
Zhou, J., Bruns, M. A., and Tiedje, J. M. (1995). “DNA recovery from soils of diverse composition.” Appl. Environ. Microbiol., 62(2), 316–322.
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© 2011 ASCE.
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Received: May 1, 2009
Accepted: Jul 6, 2010
Published online: Jan 14, 2011
Published in print: Feb 2011
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