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KMID : 1234420110390040382
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Korean Journal of Microbiololgy and Biotechnology
2011 Volume.39 No. 4 p.382 ~ p.386
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Electricity Production Performance of Single- and Dual-cathode Microbial Fuel Cells Coupled to Carbon Source and Nitrate
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Jang Jae-Kyung
Ryou Young-Sun
Lee Sung-Hyoun
Hwang Jihwan
Lee Hyun-Mo
Kim Jong-Goo
Kang Youn-Koo
Kim Young-Hwa
Lee Eun-Young
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Abstract
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Microbial fuel cells (MFC), devices that use bacteria as a catalyst to generate electricity, can utilize a variety of organic wastes as electron donors. The current generated may differ depending on the organic matter concentrations used, when other conditions, such as oxidant supply, proton transfer, internal resistance and so on, are not limiting factors. In these studies, a single-cathode type MFC (SCMFC) and dual-cathode type MFC (DCMFC) were used to ascertain the current¡¯s improvement through an increase in the contact area between the anode and the cathode compartments, because the cathode reaction is one of the most serious limiting factors in an MFC. Also an MFC was conducted to explore whether an improvement in electricity generation resulted from oxidizing the carbon sources and nitrates. About 250 mg sodium acetate was fed to an anode compartment with a flow rate of 0.326 mL by continuous mode. The current generated from the DCMFC was higher than the value produced from MFC with a single cathode. COD removal of dual-cathode MFC was also higher than that of single-cathode MFC. The nitrate didn¡¯t affect current generation at 2 mM, but when 4 and 8 mM nitrate was supplied, the current in the single-cathode and dual-cathode MFC was decreased by 98% from to mA and to mA, respectively. These results demonstrate that increasing of contact area of the anode and cathode can raise current generation by an improvement in the cathode reaction.
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KEYWORD
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Microbial fuel cell, electricity, nitrate, dual-cathode, single-cathode
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