测定生活废水电解质的电化学特性

Ayorinde Babatund Fasan, Oluwaseun Adekoya Adelaja, J. Babatola, Daniel Toyin Oloruntoba
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引用次数: 0

摘要

尼日利亚电力供应不稳定,导致经济发展下滑,国内许多人生活水平低下。长期以来,尼日利亚的电力供应一直很低,而且看不到任何改善的迹象。解决这一问题的方法之一是提供微生物燃料电池(MFC),它可以为一些家用设备供电。本研究调查了微生物燃料电池电解质的一些电化学参数。我们构建了三个相同的实验室微生物燃料电池(MFC),每个室的工作容积为 1000 毫升。MFC 采用 H 型设计,两个腔室由阳离子陶瓷膜(CEM)隔开。电极分别采用从白花蛇舌草(Terminalia superba,TS)、竹子(Bambusa vulgaris,BV)和碳布(CC)中提取的活性炭材料,将其浸入反应器中,分别作为 MFC-1、MFC-2 和 MFC-3。研究了电解质的电化学参数。第 5 天,MFC-1(Terminalia superba (TS))和 MFC-3(碳布 (CC))获得的最大电位差分别为 0.510 V 和 0.95 V。MFC-2 ( Bambusa vulgaris (BV)) 的最大电位差出现在第 15 天,为 0.2 V。MFC-1 (Terminalia superba (TS))的结果表明,就产生电压而言,它比 MFC-2 (Bambusa vulgaris (BV))表现更好。这些结果为利用 MFC 发电的可能性提供了进一步的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Determination of Electrochemical Properties of Electrolytes from Domestic Wastewater
The erratic power supply in Nigeria has led to a decline in economic development and a low standard of living for many people within the country. Access to Nigeria’s electricity has been low for a very long time with no improvement in sight. One of the ways of resolving this problem is the provision of a microbial fuel cell (MFC) that can power some of the devices at home. This study investigates some of the electrochemical parameters of the electrolyte in microbial fuel cells. Three identical laboratory microbial fuel cells (MFCs) were constructed with a working volume of 1000 mL for each chamber. The MFCs were constructed in an H-shaped design with both chambers separated by cation ceramic membranes (CEM). Activated carbon materials obtained from white afara tree ( Terminalia superba (TS)), bamboo tree ( Bambusa vulgaris (BV)) and carbon cloth (CC) were used as the electrodes which were dipped into the reactors as MFC-1, MFC-2 and MFC-3, respectively. The electrochemical parameters of the electrolyte were studied. The maximum potential difference being obtained from MFC-1 ( Terminalia superba (TS)) and MFC-3 (carbon cloth (CC)) occurred on day 5 which were 0.510 V and 0.95 V, respectively. The maximum potential difference obtained from MFC-2 ( Bambusa vulgaris (BV)) occurred on day 15 which was 0.2 V. The results generated in this study showed that MFC-3 (carbon cloth (CC)) performed better in terms of voltage generation. The result of MFC-1 ( Terminalia superba (TS)) showed that it performed better than MFC-2 ( Bambusa vulgaris (BV) in terms of voltage generation. The results provide further information on the possibility of using MFCs for electricity generation.
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