两室生物电化学系统中猪粪浆的氮回收

Nitrogen recovery from pig slurry in a two-chambered bioelectrochemical system.

作者信息

Sotres A, Cerrillo M, Viñas M, Bonmatí A

机构信息

IRTA, GIRO Joint Research Unit IRTA-UPC, Torre Marimon, ctra. C-59, km 12,1, E-08140 Caldes de Montbui, Barcelona, Spain.

出版信息

Bioresour Technol. 2015 Oct;194:373-82. doi: 10.1016/j.biortech.2015.07.036. Epub 2015 Jul 17.

DOI:10.1016/j.biortech.2015.07.036

PMID:26210528

Abstract

Abiotic batch experiments showed that ammonia migration from anode to cathode was favored by an increase in voltage, from 39.9% to 44.6%, using synthetic media. A slight increase in ammonia migration was observed when using pig slurry, reaching a maximum of 49.9%. In a continuously MFC fed with pig slurry with a stripping/absorption unit coupled to the cathode chamber, the highest nitrogen flux (7.2 g N d(-1) m(-2)) was achieved using buffer as catholyte. Nitrogen flux increased to 10.3 g N d(-1) m(-2) when shifting to MEC mode. A clear improvement in nitrogen flux (25.5 g N d(-1) m(-2)) was observed when using NaCl as catholyte. Besides, ammonia stripping was favored, reaching a nitrogen recovery of 94.3% in the absorption column, due to the high pH reached in the cathode. The microbial community analysis revealed an enrichment of certain taxonomic Eubacterial and Archaeal groups when the system shifted from MFC to MEC mode.

摘要

非生物批次实验表明，在使用合成培养基时，随着电压升高，氨从阳极向阴极的迁移更为有利，迁移率从39.9%提高到44.6%。使用猪粪时，氨迁移略有增加，最高达到49.9%。在一个与阴极室耦合有汽提/吸收单元的连续进料猪粪的微生物燃料电池中，使用缓冲液作为阴极电解液时实现了最高的氮通量（7.2 g N d(-1) m(-2)）。当切换到微生物电解池模式时，氮通量增加到10.3 g N d(-1) m(-2)。当使用氯化钠作为阴极电解液时，观察到氮通量有明显改善（25.5 g N d(-1) m(-2)）。此外，由于阴极达到的高pH值，有利于氨的汽提，在吸收塔中氮回收率达到94.3%。微生物群落分析表明，当系统从微生物燃料电池模式转变为微生物电解池模式时，某些分类的真细菌和古细菌群体会富集。

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两室生物电化学系统中猪粪浆的氮回收

Nitrogen recovery from pig slurry in a two-chambered bioelectrochemical system.

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