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Impact of soluble organic matter and particulate organic matter on anammox system: Performance, microbial community and N2O production

Abstract

In this study, the effects of soluble readily biodegradable COD (sCOD) and particulate slowly biodegradable COD (pCOD) on anammox process were investigated. The results of the longterm experiment indicated that a low sCOD/N ratio of 0.5 could accelerate the anammox and denitrification activity, to reach as high as 84.9% ±2.8% TN removal efficiency. Partial denitrification-anammox (PDN/anammox) and denitrification were proposed as the major pathways for nitrogen removal, accounting for 91.3% and 8.7% of the TN removal, respec- tively. Anammox bacteria could remain active with high abundance of anammox genes to maintain its dominance. Candidatus Kuenenia and Thauera were the predominant genera in the presence of organic matter. Compared with sCOD, batch experiments showed that the introduction of pCOD had a negative effect on nitrogen removal. The contribution of denitrification to nitrogen removal decreased from approximately 14% to 3% with increasing percentage of pCOD. In addition, the analysis result of the process data using an optimized ASM1 model indicated that high percentage of pCOD resulted in serious N 2 O emission (the peak value up to 0.25 mg N/L), which was likely due to limited mass diffusion and insufficient available carbon sources for denitrification. However, a high sCOD/N ratio was beneficial for alleviating N 2 O accumulation.

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Category:
Articles
Type:
artykuły w czasopismach
Published in:
JOURNAL OF ENVIRONMENTAL SCIENCES-CHINA no. 124, pages 146 - 155,
ISSN: 1001-0742
Language:
English
Publication year:
2023
Bibliographic description:
He Y., Mao H., Mąkinia J., Drewnowski J., Wu B., Xu J., Xie L., Lu X.: Impact of soluble organic matter and particulate organic matter on anammox system: Performance, microbial community and N2O production// JOURNAL OF ENVIRONMENTAL SCIENCES-CHINA -Vol. 124, (2023), s.146-155
DOI:
Digital Object Identifier (open in new tab) 10.1016/j.jes.2021.11.007
Sources of funding:
  • Free publication
Verified by:
Gdańsk University of Technology

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