污泥和氧化剂对微生物燃料电池发电的影响

Vidia Wahyu Meidy Safitri, A. Yuniarto, A. Purnomo, Bara Awanda Marhendra
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摘要

早期的研究证明了微生物燃料电池在废水处理和可再生电力发电方面的功效。在这个过程中,微生物燃料电池利用废水作为基质和能源的潜力,使微生物产生电流。从污水污泥中引入微生物作为微生物催化剂。此外,豆腐废水被用作支持这些微生物生长的营养资源。本研究采用双室反应器,阳极和阴极通过盐桥连接。在阳极上进行了各种底物变化,特别是豆腐废液和污水污泥以1:1,1:2和1:3的比例组合。此外,阴极使用了不同的电解质溶液,如KMnO4和K3(Fe(CN)6)。使用不同的电解质溶液作为电子受体可以提高电流的产生。该研究持续了240小时的运行,在此期间,每隔48小时测量一次电流、电压、COD和BOD。研究结果显示,与其他基质相比,以1:3的比例加入污水污泥产生的电流强度最高,为16.34 mA。当使用0.25 M的KMnO4作为电解质溶液时,记录的电压为8.78 V。KMnO4存在时,底物比为1:3时,对COD和BOD的去除率最高,去除率分别为95.12%和96.45%。这些结果表明,添加污水污泥有助于增加电流的产生。
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The Effect of Septage Sludge and Oxidizing Agents in the Microbial Fuel Cells Generating Electricity
Earlier research demonstrated the efficacy of microbial fuel cells in both wastewater treatment and renewable electric current generation. In this process, microbial fuel cells harness the potential of wastewater as a substrate and energy source, enabling microorganisms to generate electric current. Introducing microorganisms sourced from septage sludge acts as a microbial catalyst. Additionally, tofu wastewater is employed as a nutritional resource to support the growth of these microorganisms. A dual-chamber reactor was utilized to carry out this study, featuring an anode and a cathode connected through a salt bridge. Various substrate variations were performed on the anode, specifically with a combination of tofu liquid waste and septage sludge at ratios of 1:1, 1:2, and 1:3. Additionally, different electrolyte solutions, such as KMnO4 and K3(Fe(CN)6), were used at the cathode. Using different electrolyte solutions as electron acceptors can enhance the electric current production generated. The study spanned 240 hours of operation, during which electric current, voltage, COD, and BOD measurements were taken at 48-hour intervals. The findings revealed that including septage sludge in a 1:3 ratio yielded the highest current strength compared to other substrate variations, measuring 16.34 mA. When using a 0.25 M KMnO4 as an electrolyte solution, the voltage recorded was 8.78 V. Additionally, the most effective removal of COD and BOD content was achieved with a substrate ratio of 1:3 in the presence of KMnO4, achieving removal rates of 95.12% and 96.45%, respectively. These results indicate that adding septage sludge contributes to increased electricity current production.
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