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( Kevin C. Reyes ),( Seong-jik Park ) 한국농공학회 2020 한국농공학회 학술대회초록집 Vol.2020 No.-
Energy and agriculture sectors are the lead contributors in global greenhouse gas emissions now and then. With the problems in the issue, the fuel cell (FC) technology has been proposed as sustainable in wastewater treatment along with simultaneous renewable energy generation in the form of direct electricity and biogas. Microbial fuel cell (MFC) uses an active microorganism as a biocatalyst in a cathode and anode compartments for production of bioelectricity, generation of biogas, bioremediation of heavy metals, and wastewater treatment. This study focusses on the evaluation of dual-chamber MFC compost of stainless-steel electrodes, anaerobic digested slurry as substrate inoculated with microbes derived from fermented soybean solution. Minimum and maximum voltage generation are expected to range from 200mV to 300 mV, respectively. Biogas such as but not limited to biomethane and biohydrogen are also expected to be produced through microbial activities in an anaerobic anode compartment while heavy metals remediation is expected to range from 60% to 80%. This study is expected to prove MFC as a package technology both in energy generation and wastewater treatment.