Studying microbial fuel cells equipped with heterogeneous ion exchange membranes: Electrochemical performance and microbial community assessment of anodic and membrane-surface biofilms

Abstract

In this study, microbial fuel cells deploying heterogeneous ion exchange membranes were assessed. The behavior of the cells as a function of the membrane applied was evaluated in terms of maximal current density, electron recovery efficiency and energy production rate (up to 427.5 mA, 47.7 % and 660 J m^-2h^-1, respectively) at different substrate (acetate) feedings (2.15 - 8.6 mM). System performance was characterized in the light of oxygen and acetate crossovers. The effect of membranes (in relation to the oxygen mass transfer coefficient, k_O) on the microbial diversity of anodic and membrane-surface biofilms was investigated. Based on the relative abundance of bacterial orders, the two populations could be distinguished and membranes with larger k_O tended to promote more the air-tolerant microbes in the biofouling layer. This indicates that membrane k_O has a direct effect on membrane foulant microbial composition, and thus, on the expected time-stability of the membrane.

Keywords: Acetate crossover; Bioelectrochemical system; Cation exchange membrane; Membrane biofouling; Metagenomic analysis; Oxygen transfer.