通过表面流人工湿地中的铁碳微电解增强氮去除：选择活性炭还是生物炭？

Enhanced nitrogen removal via iron‑carbon micro-electrolysis in surface flow constructed wetlands: Selecting activated carbon or biochar?

机构信息

China-UK Low Carbon College, Shanghai Jiao Tong University, Shanghai 201306, PR China.

School of Environmental Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, PR China.

出版信息

Sci Total Environ. 2022 Apr 1;815:152800. doi: 10.1016/j.scitotenv.2021.152800. Epub 2022 Jan 1.

DOI:10.1016/j.scitotenv.2021.152800

PMID:34982986

Abstract

The iron-assisted autotrophic denitrification was plagued by passivation when introduced in surface flow constructed wetlands (SFCWs). Iron‑carbon micro-electrolysis (Fe/C-M/E) could facilitate the transfer of electrons during the utilization of iron. In this study, iron scraps coupling with activated carbon and biochar were applied to explore the effects of carbon materials on autotrophic denitrification. The results showed that TN removal rate in the SFCW with iron scraps and activated carbon (SFCW-IAC) and the SFCW with iron scraps and biochar (SFCW-IBC) were improved by 31.61% ± 8.18% and 14.09% ± 7.15%, and NO fluxes were reduced to 2.73 and 3.12 mg m d, respectively. The greater iron mass loss rate (0.91%) was confirmed in SFCW-IAC. Microbial community analysis reported that autotrophic denitrification and iron related genera were increased. This study proved that activated carbon was more suitable than biochar to Fe/C-M/E for denitrification enhancement and NO emission reduction.

摘要

在表面流人工湿地（SFCWs）中引入铁辅助自养反硝化时，会受到钝化的困扰。铁-碳微电解（Fe/C-M/E）可以促进铁利用过程中的电子转移。在这项研究中，应用铁屑与活性炭和生物炭结合，探索了碳材料对自养反硝化的影响。结果表明，铁屑和活性炭（SFCW-IAC）以及铁屑和生物炭（SFCW-IBC）的 SFCW 中的 TN 去除率分别提高了 31.61%±8.18%和 14.09%±7.15%，NO 通量分别降低至 2.73 和 3.12 mg m d。SFCW-IAC 中确认了更大的铁质量损失率（0.91%）。微生物群落分析报告称，自养反硝化和与铁相关的属增加。本研究证明，与生物炭相比，活性炭更适合用于 Fe/C-M/E 增强反硝化和减少 NO 排放。

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通过表面流人工湿地中的铁碳微电解增强氮去除：选择活性炭还是生物炭？

Enhanced nitrogen removal via iron‑carbon micro-electrolysis in surface flow constructed wetlands: Selecting activated carbon or biochar?

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