Design, construction, and testing of generation of electric energy using microbial fuel cell
1 Agricultural and Bioenvironmental Engineering, Lagos State University of Science and Technology, Ikorodu, Nigeria.
2 Mechanical Engineering, Lagos State University of Science and Technology, Ikorodu, Nigeria.
3 Electrical and Electronic Engineering, Rivers State Polytechnic Bori, Nigeria.
4 Environmental Science, Florida Agricultural and Mechanical University, USA.
5 Mechanical Engineering, Yaba College of Technology, Nigeria.
6 Chemistry, University of Missouri, Columbia, USA.
Research Article
World Journal of Advanced Research and Reviews, 2024, 23(02), 085–097
Publication history:
Received on 18 June 2024; revised on 28 July 2024; accepted on 30 July 2024
Abstract:
A microbial fuel cell (MFC) is a bio-electrochemical system that converts chemical energy from organic compounds/renewable energy sources to electrical energy/bio-electrical energy through microbial catalysis at the anode under anaerobic conditions. The process is becoming an attractive and alternative methodology for the generation of electricity. The scope of this paper was to design, construct, and test microbial fuel cells that source their fuel from organic waste, using microbial fuel cells to power LED lights. The research concluded that microbial fuel is a prospective energy source for future electricity that can be produced and used by all consumers. Single Chamber Microbial fuel cells were set up using material readily available around i.e. the slurry and, in the market, i.e. the other materials, in batches. The studies showed that the single chamber MFC can produce a maximum voltage of over 500mV and can last for a minimum of two and half months. Out of the 30 MFCs produced 18 of them which produce stable and progressive voltage were connected in series in the frame. The whole setup successfully powered five red LED lights. This shows that more of the MFCs set up can produce more electricity such as that can power a control system.
Keywords:
Microbial fuel cells; Microorganisms; Electrical circuits; Renewable energy; Sustainable technology; Energy independence
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Copyright © 2024 Author(s) retain the copyright of this article. This article is published under the terms of the Creative Commons Attribution Liscense 4.0