TY - JOUR T1 - Comparative Study of Three Cathodic Electron Acceptors on the Performance of Medatiorless Microbial Fuel Cell AU - Rodriguez-Martinez, J. AU - Martinez-Amador, S.Y. AU - Rodriguez-Garza, M.M. AU - Garza-Rodriguez, I.M. de la AU - Sosa-Santillan, G.J. AU - Garza-Garcia, Y. AU - Rios-Gonzalez, L.J. AU - Guerrero-Rangel, N. AU - Rodriguez-de la Garza, J.A. JO - International Journal of Electrical and Power Engineering VL - 4 IS - 1 SP - 27 EP - 31 PY - 2010 DA - 2001/08/19 SN - 1990-7958 DO - ijepe.2010.27.31 UR - https://makhillpublications.co/view-article.php?doi=ijepe.2010.27.31 KW - power density KW -Cathodic electron acceptor KW -microbial fuel cell KW -electrical energy KW -potassium permanganate KW -voltage AB - Microbial Fuel Cells (MFC) are capable of converting the chemical energy stored in the chemical compounds in a biomass to electrical energy with the aid of microorganisms. A better understanding of the relationship between the microbiological and electrical aspects of fuels cells is needed prior to successful MFC application. MFC constructed employing low-cost materials (salt bridge, graphite electrodes) without addition of any toxic mediators and using glucose (3 g L^-1) as substrate and three different electron acceptors potassium permanganate (KMnO₄), potassium ferricyanide (K₃[Fe(CN)₆]) and potassium dichromate (K₂Cr₂O₇) in the cathode chamber without pH adjustment was assessed in the present study. The results showed that MFC performance with KMnO₄ was superior than K₃[Fe(CN)₆] and K₂Cr₂O₇. Maximum voltage generation (OCV) and power density for KMnO₄ were 1.04 V and 7.29 mW m^-2. Performance of MFC with K₃[Fe(CN)₆] and K₂Cr₂O₇ was much lower with a OCV and power density of 0.71 V; 0.92 mW m^-2 and 0.56 V; 0.79 mW m^-2, respectively. Demonstrating that KMnO₄can be used as an effective cathodic electron acceptor to enhance power output on MFC. ER -