Electricity generation in membrane-less single chambered microbial fuel cell

2016 International Conference on Control, Computing, Communication and Materials (ICCCCM) Pub Date : 2016-10-01 DOI:10.1109/ICCCCM.2016.7918216

Shwetank Singh, C. Dwivedi, A. Pandey

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引用次数: 6

Abstract

Microbial fuel cells are rapidly growing sustainable technology for energy production. In MFC microbes in anode chamber oxidizes organic compound transferring electrons to anode and protons towards cathode chamber via proton exchange membrane. From anode the electrons passes through an external circuit to cathode chamber and combined with proton to produce water in the presence of oxygen. But the high cost and biofouling of proton exchange membrane limits the practical use of MFCs. The aim of this paper is to present the performance of membrane-less single chambered microbial fuel cells (MFC). The MFC was constructed under anaerobic condition utilizing the synthetic glucose substrate to generate electricity. The biofilm of microbe Bacillus firmus-NMBL-03 over plain graphite electrodes was used as biocatalyst. When operated with an external resistance of 1000 Ω, the MFC produced maximum power density of 0.88 mW/m2 and average power density of 0.19 mW/m2 for 500 hrs. The maximum power density 2.9 mW/m2 at current density 17.7 mA/m2 was observed.

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无膜单室微生物燃料电池的发电

微生物燃料电池是一种快速发展的可持续能源生产技术。在MFC中，阳极室中的微生物氧化有机化合物，通过质子交换膜将电子转移到阳极，将质子转移到阴极室。从阳极的电子通过一个外部电路到阴极室，并与质子结合产生水在氧气的存在。但质子交换膜的高成本和生物污染限制了mfc的实际应用。本文旨在介绍无膜单室微生物燃料电池(MFC)的性能。在厌氧条件下，利用合成葡萄糖底物发电，构建了MFC。以冻僵芽孢杆菌- nmll -03生物膜为生物催化剂。当外部电阻为1000 Ω时，MFC在500小时内产生的最大功率密度为0.88 mW/m2，平均功率密度为0.19 mW/m2。在17.7 mA/m2电流密度下，最大功率密度为2.9 mW/m2。

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2016 International Conference on Control, Computing, Communication and Materials (ICCCCM)

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