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Effect of COD/ NO3−-N ratio on nitrite accumulation and microbial behavior in glucose-driven partial denitrification system

Zhijie Zeng, Yiying Wang, Wenxuan Zhu, Tian Xie, Lingling Li

2023Heliyon12 citationsDOIOpen Access PDF

Abstract

COD/NO 3 − -N ratio was considered to be one of the key factors achieving effective nitrite accumulation during partial denitrification. In two parallel reactors incubated with glucose as carbon source at COD/NO 3 − -N of 3 and 5, respectively, the microbial community structure shift and the nitrite accumulation performance during long-term operation were investigated. The maximum nitrite accumulation ratios at COD/NO 3 − -N of 3 and 5 were 17.9% and 47.04%, respectively. Thauera was the dominant genus in both reactors on day 220 with the relative abundance of 18.67% and 64.01%, respectively. Batch experiments with different electron acceptors suggested that the distinction in nitrite accumulation at COD/NO 3 − -N of 3 and 5 might be caused by the differences in the abundance of Thauera .

Topics & Concepts

NitriteDenitrificationChemistryChemical oxygen demandEnvironmental chemistryNitrateFood scienceNitrogenEnvironmental engineeringWastewaterEnvironmental scienceOrganic chemistryWastewater Treatment and Nitrogen RemovalMicrobial Fuel Cells and BioremediationWater Treatment and Disinfection