Yuzuru Kimochi scite author profile

To evaluate control parameters for nitrous oxide (N2O) emissions in the swine wastewater treatment process, the N2O emission was compared in the activated sludge from SBRs acclimated in different carbon/nitrogen (C/N) ratios. N2O emission from a denitrification phase was very strongly dependent on C/N ratio of swine wastewater, and the total N2O emission in the operating condition of BOD5/TN ratio of 2.6 was approximately 270 times greater than that in BOD5/TN ratio of 4.5. However, the effect of C/N ratio on N2O emission amount from nitrification was not significant in an oxic phase study. It is considered that stabilization of the C/N ratio through optimal solid-liquid separation of slurry or use of an external carbon source is indispensable for effective N2O emission control from nitrogen removal process of swine wastewater.

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Effects of SRT and DO on N2O reductase activity in an anoxic-oxic activated sludge system

Noda

Kaneko

Mikami

et al. 2004

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Nitrous oxide (N2O) is emitted from wastewater treatment processes, and is known to be a green house gas contributing to global warming. It is thus important to develop technology that can suppress N2O emission. The effects of sludge retention time (SRT) and dissolved oxygen (DO) on N2O emission in an anoxic-oxic activated sludge system were estimated. Moreover, the microbial community structure in the sludge, which plays an important role in N2O suppression, was clarified based on nitrous oxide reductase (nosZ) gene analysis by molecular biological techniques. The results showed that under low SRT conditions, nitrification efficiency was reduced and the N2O emission rate in the oxic reactors was increased. It was also observed that N2O emission was enhanced under low DO conditions, where the available oxygen is insufficient for nitrification. Moreover, molecular analysis revealed that the clones identified in this study were closely related to Ralstonia eutropha and Paracoccus denitrificans. The fact that the identified sequences are not closely related to known culturable denitrifier nosZ sequences indicates a substantial in situ diversity of denitrifiers contributing to N2O suppression, which are not reflected in the cultivatable fraction of the population. The further application of these new molecular techniques should serve to enhance our knowledge of the microbial community of denitrifying bacteria contributing to N2O suppression in wastewater treatment systems.

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Study of the characteristics of CH4 and N2O emission and methods of controlling their emission in the soil-trench wastewater treatment process

Kong

Kimochi

Mizuochi

et al. 2002

The Science of The Total Environment

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Yuzuru Kimochi

Nitrogen removal and N2O emission in a full-scale domestic wastewater treatment plant with intermittent aeration

Effect of salinity on nitrous oxide emission in the biological nitrogen removal process for industrial wastewater

Effect of C/N ratio on nitrous oxide emission from swine wastewater treatment process

Effects of SRT and DO on N2O reductase activity in an anoxic-oxic activated sludge system

Study of the characteristics of CH4 and N2O emission and methods of controlling their emission in the soil-trench wastewater treatment process

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