Paper Title
Mixed Bacterial Cultures for the High Performance of Microbial Fuel Cell

Abstract
In the present study, biofilm formation and impact of bacteria inoculum added into the microbial fuel cell (MFC) were investigated. MFC was operated in a dual chamber configuration. The anode chamber contains mixed of palm oil mill effluent (POME) and inoculum under anaerobic conditions. Variations of inoculum derived from POME and pure culture of Pseudomonas sp grown in liquid medium. The cathode chamber contains solution of KMnO4 and buffer phosphate under aerobic conditions. The electrode is a non-catalyst graphite sheet and a proton exchange membrane which is Nafion 212.The results show that the additional of POME inoculum generates higher Open Circuit Voltage (OCV) value and the greatest power density. Maximum OCV, power density and current density are 909 mV, 706.25 mW/m2 and 1408.29 mA/m2, respectively. Electrochemical Impendance Spectrosopy (EIS) was done to monitor resistance formed in the MFC. The Scanning Electron Microscopy (SEM) test results show that the biofilm is formed on the anode surface. This research demonstrated that the use of mixed culture bacteria is very crucial on the biofilm formation and improves MFC performances. Index Terms - Microbial fuel cell, open-circuit voltage, palm oil mill effluent, power density.