Bioelectricity production from fermentable household waste in a dual-chamber microbial fuel cell

摘要

In this study, the use of a dual-chamber microbial fuel cell for the production of bioelectricity from a food residue biomass (FORBI) product was investigated. Food residue biomass was produced by drying and shredding the pre-sorted fermentable fraction of household food waste collected door-to-door in the Municipality of Halandri, Athens, Greece. Different organic loads of food residue biomass expressed as chemical oxygen demand (COD) were examined (0.7, 0.9, 1.4, 2.8, 6 and 14gCODL~(-1), respectively). It was observed that an increase of the initial concentration of the final extract resulted in a corresponding increase in the operating time. The microbial fuel cell potential increased from 33.3 mV to 46mV as the concentration was increased from 0.7 to 14gCODL~(-1). The best performance in terms of maximum power density (29.6 mW m~(-2)) corresponding to a current density of 88 mAm~(-2) was observed for 6gCODL~(-1). Setting the external resistance at its optimal value (R_(ext) = 2kΩ) as determined by polarisation experiments, P_(yield) drastically increased to 13.7 and 17.3 Joule(gFORBI)~(-1) in two consecutive cycles. The results demonstrate that readily biodegradable substrates, such as food residue biomass, can be effectively used for enhanced bioelectricity harvesting in a microbial fuel cell.