Bioelectrochemical performance of microbial fuel cell powered electro-Fenton system (MFCⓅEFs) with composite PANI-Mn/CF anode

Abstract

Microbial fuel cell powered electro-Fenton system (MFCⓅEFs) is a self-sustainable energy conversion process to degrade refractory pollutants utilizing green biomass energy. Most previous works usually employed innovative cathode to minimize electron transfer losses but neglected the development of high-efficiency anode to enhance electron generation. The synergy of polyaniline (PANI) and MnO<sub>2</sub> on electrode could improve charge accessibility and facilitate rapid electron transfer due to its superior conductivity and capacitance, which had not been applied to MFCⓅEFs as anode so far. In this study, a PANI-Mn/CF (carbon fiber loaded with polyaniline and MnO<sub>2</sub>) composite anode was introduced into MFCⓅEFs to enhance interface activity and realize more efficient electricity generation and pollutant degradation. Experimental results showed that a higher power density (5.49 times that of the original CF) and lower ohmic resistance (7.17 Ω) occurred in the MFCⓅEFs with PANI-Mn/CF anode, which consumed more sewage sludge (37.14% of TCOD removal), leading to achieving more effective pollutant degradation (93.03% of tetracycline hydrochloride removal). Overall, this study provided an innovative way of thinking and approach to efficient utilization of biomass waste and degradation of refractory pollutants with the merits of environmental sustainability.

Key findings

• ▸A PANI-Mn/CF composite anode was shown to improve charge accessibility and facilitate rapid electron transfer.
• ▸The MFCⓅEFs with PANI-Mn/CF anode achieved a 5.49 times higher power density than the original CF.
• ▸The PANI-Mn/CF anode consumed more sewage sludge (37.14% of TCOD removal) and achieved more effective pollutant degradation (93.03% of tetracycline hydrochloride)

Keywords

Identifiers

DOI

10.4491/eer.2022.204

Journal

Environmental Engineering Research

Year

2022