4.7 Article

Enhancement of nitrogen removal in coupling Anammox and DAMO via Fe-modified granular activated carbon

Journal

JOURNAL OF ENVIRONMENTAL MANAGEMENT
Volume 340, Issue -, Pages -

Publisher

ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jenvman.2023.118001

Keywords

Anammox-DAMO; Fe-GAC; Nitrogen removal; Enzyme activity; Functional gene; Microbial community

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In this study, the effects of GAC and Fe-GAC on nitrogen removal rates in Anammox-DAMO process were investigated. The results showed that Fe-GAC significantly improved the total nitrogen removal rate and promoted key functional enzyme activities and changes in microbial community. This study provides a promising strategy for achieving high rate of nitrogen removal in the Anammox-DAMO process.
Anaerobic ammonium oxidation (Anammox) coupled with Denitrifying anaerobic methane oxidation (DAMO) is an attractive technology to simultaneously remove nitrogen and mitigate methane emissions from wastewater. However, its nitrogen removal rate is usually limited due to the low methane mass transfer efficiency, low metabolic activity and slow growth rate of functional microorganisms. In this study, GAC and Fe-modified GAC (Fe-GAC) were added into Anammox-DAMO process to investigate their effects on nitrogen removal rates and then reveal the mechanism. The results showed that after 80-day experiments, the total nitrogen removal rate was slightly improved in the presence of GAC (3.94 mg L-1 center dot d-1), while it reached high as 16.66 mg L-1 center dot d-1 in the presence of Fe-GAC, which was ca.17 times that of non-amended control group (0.96 mg L-1 center dot d-1). The addition of Fe-GAC stimulated the secretion of extracellular polymeric substance (EPS), improved the electron transfer capability and promoted the production of Cytochrome C. Besides, the key functional enzyme activities (HZS, HDH and NAR) were highest in the Fe-GAC group, which were approximately 1.06-1.56 times higher than those of GAC-amended and blank control groups. Microbial community analysis showed that the abundance of the DAMO archaea (Candidatus Methanoperedens) and Anammox bacteria (Candidatus Brocadia) were remark-ably increased with the addition of Fe-GAC. Functional genes associated with nitrogen removal and methane oxidation in Fe-GAC system were up-regulated. This study provides a promising strategy for achieving high rate of nitrogen removal upon Anammox-DAMO process.

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