不同阴极溶液在MFC中的废水处理及发电

Serkan Eker
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摘要

利用一种具有阴极和阳极腔的微生物燃料电池(MFC)在发电的同时去除废水中的COD。通过利用各种氧化剂溶液,可以提高产生的电压。阳极室用于厌氧处理合成废水(约1000 mg/L),阴极室含有各种氧化剂溶液,如稀过氧化氢(300 mg/L)、KMnO4 (300 mg/L)、K2Cr2O7 (300 mg/L)和Fenton试剂(H2O2/Fe(II), 300/20 mg/L)。在阴极室进行了好氧废水处理和间歇臭氧氧化试验。间歇臭氧化阴极室可获得最高输出功率(382 mW/m2)。运行周期结束时,阳极室COD浓度由1170 mg/L降至650 mg/L, COD去除率近45%。在阴极室中,使用稀释的KMnO4和H2O2溶液分别产生35和23 W/m2的高功率密度,而其他氧化剂产生较低的功率密度。72h后,厌氧室COD含量由800mg /L降至333mg /L, KMnO4溶液COD去除率近59%。考虑到臭氧氧化成本较高,建议在阴极室采用好氧废水处理或稀KMnO4/H2O2溶液进行高功率发电。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wastewater Treatment and Electricity Generation with Different Cathode Solutions in MFC
A microbial fuel cell (MFC) with cathode and anode chambers was utilized to generate power while simultaneously removing COD from wastewater. By utilizing various oxidant solutions, it is possible to increase the generated voltage. The anode chamber was used for anaerobic treatment of synthetic wastewater (approximately 1000 mg/L), whereas the cathode chamber contained various oxidant solutions such as dilute hydrogen peroxide (300 mg/L), KMnO4 (300 mg/L), K2Cr2O7 (300 mg/L) and Fenton reagent (H2O2/Fe(II), 300/20 mg/L). Aerobic wastewater treatment and intermittent ozonation were also tested in the cathode chamber. With intermittent ozonation of the cathode chamber, the highest power output (382 mW/m2) was obtained. At the conclusion of the operation period, the COD concentration in the anode chamber decreased from 1170 mg/L to 650 mg/L, resulting in nearly 45% COD removal. In the cathode chamber, the use of diluted KMnO4 and H2O2 solutions produced high power densities of 35 and 23 W/m2, respectively, while the other oxidants produced low power densities. At the end of 72 hours, the COD content of the anaerobic chamber decreased from 800 mg/L to nearly 333 mg/L, resulting in nearly 59% COD removal for the KMnO4 solution. Considering the high cost of ozonation, it is recommended that either aerobic wastewater treatment or dilute KMnO4/H2O2 solutions should be used in the cathode chamber for high power generation.
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