Nitrogen Removal and N sub(2)O Emission in a Full-Scale Domestic Wastewater Treatment Plant with Intermittent Aeration

Nitrous oxide (N sub(2)O) is emitted from wastewater treatment processes. It is known as a greenhouse gas that contributes to global warming (over 200 times more per molecule than carbon dioxide) and to the destruction of the ozone layer. It is therefore of great importance to develop technology tha...

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Published in:	Journal of fermentation and bioengineering Vol. 86; no. 2; pp. 2O2 - 206
Main Authors:	Kimochi, Y, Inamori, Y, Mizuochi, M, Xu, Kai-Qin, Matsumura, M
Format:	Journal Article
Language:	English
Published:	01-01-1998
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Abstract	Nitrous oxide (N sub(2)O) is emitted from wastewater treatment processes. It is known as a greenhouse gas that contributes to global warming (over 200 times more per molecule than carbon dioxide) and to the destruction of the ozone layer. It is therefore of great importance to develop technology that can suppress N sub(2)O emission. The effects of an anoxic period on N sub(2)O emission and nitrogen removal were investigated in an actual domestic wastewater treatment plant. When operated with intermittent aeration, most of the N sub(2)O was emitted into the atmosphere during the aerobic period. N sub(2)O emission from the intermittent process was estimated to be 0.43-1.89 g N sub(2)O person super(-1) year super(-1). Maintaining a dissolved oxygen (DO) concentration of over 0.5 mg l super(-1) during the aerobic period resulted in the complete conversion of the influent NH sub(4)-N to NO sub(3)-N and a 60-min anoxic period was sufficient for denitrification to be completed. The findings show that an optimum combination of aerobic and anoxic conditions and their suitable control are very important for improving nitrogen removal efficiency and controlling N sub(2)O emission.
AbstractList	Nitrous oxide (N sub(2)O) is emitted from wastewater treatment processes. It is known as a greenhouse gas that contributes to global warming (over 200 times more per molecule than carbon dioxide) and to the destruction of the ozone layer. It is therefore of great importance to develop technology that can suppress N sub(2)O emission. The effects of an anoxic period on N sub(2)O emission and nitrogen removal were investigated in an actual domestic wastewater treatment plant. When operated with intermittent aeration, most of the N sub(2)O was emitted into the atmosphere during the aerobic period. N sub(2)O emission from the intermittent process was estimated to be 0.43-1.89 g N sub(2)O person super(-1) year super(-1). Maintaining a dissolved oxygen (DO) concentration of over 0.5 mg l super(-1) during the aerobic period resulted in the complete conversion of the influent NH sub(4)-N to NO sub(3)-N and a 60-min anoxic period was sufficient for denitrification to be completed. The findings show that an optimum combination of aerobic and anoxic conditions and their suitable control are very important for improving nitrogen removal efficiency and controlling N sub(2)O emission.
Author	Mizuochi, M Kimochi, Y Inamori, Y Xu, Kai-Qin Matsumura, M
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