微生物脱盐细胞在废水处理、发电和脱盐方面的性能提升。

Microbial desalination cells for improved performance in wastewater treatment, electricity production, and desalination.

机构信息

Department of Civil Engineering, University of Colorado Denver, Denver, CO 80004, USA.

出版信息

Bioresour Technol. 2012 Feb;105:60-6. doi: 10.1016/j.biortech.2011.11.098. Epub 2011 Dec 1.

DOI:10.1016/j.biortech.2011.11.098

Abstract

The low conductivity and alkalinity in municipal wastewater significantly limit power production from microbial fuel cells (MFCs). This study integrated desalination with wastewater treatment and electricity production in a microbial desalination cell (MDC) by utilizing the mutual benefits among the above functions. When using wastewater as the sole substrate, the power output from the MDC (8.01 W/m(3)) was four times higher than a control MFC without desalination function. In addition, the MDC removed 66% of the salts and improved COD removal by 52% and Coulombic efficiency by 131%. Desalination in MDCs improved wastewater characteristics by increasing the conductivity by 2.5 times and stabilizing anolyte pH, which therefore reduced system resistance and maintained microbial activity. Microbial community analysis revealed a more diverse anode microbial structure in the MDC than in the MFC. The results demonstrated that MDC can serve as a viable option for integrated wastewater treatment, energy production, and desalination.

摘要

城市废水中的低电导率和碱性显著限制了微生物燃料电池（MFC）的发电能力。本研究通过利用上述功能之间的互利关系，在微生物脱盐电池（MDC）中将脱盐与废水处理和发电相结合。当使用废水作为唯一的基质时，MDC 的功率输出（8.01 W/m³）是没有脱盐功能的对照 MFC 的四倍。此外，MDC 去除了 66%的盐分，使 COD 去除率提高了 52%，库仑效率提高了 131%。MDC 中的脱盐作用通过将电导率提高 2.5 倍并稳定阳极电解液 pH 值，从而降低系统电阻并维持微生物活性，改善了废水特性。微生物群落分析表明，MDC 中的阳极微生物结构比 MFC 中的更为多样化。结果表明，MDC 可以作为一种可行的综合废水处理、能源生产和脱盐的选择。

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微生物脱盐细胞在废水处理、发电和脱盐方面的性能提升。

Microbial desalination cells for improved performance in wastewater treatment, electricity production, and desalination.

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