Comparative evaluation of simultaneous nitritation/denitritation and energy recovery in air-cathode microbial fuel cells (ACMFCs) treating low C/N ratio wastewater

Air-cathode microbial fuel cells (ACMFCs) can extract available electrons from the low C/N ratio wastewater (LCNW) for pollutant degradation and power generation. However, the multiple effects of operating parameters and their relationship between the performances and parameters are still lacking. In this study, several ACMFCs for simultaneous nitritation/denitritation (SND) and energy recovery were constructed and evaluated in terms of chemical oxygen demand (COD), NH4+-N, C/N ratio, phosphate buffer solution (PBS), and external resistance (Rext), and several derived parameters (e.g., organic loading rate (OLR), nitrogen loading rate (NLR)). Results indicated that ACMFCs could be used to treat LCNW successfully with high pollutant removal rates and sustainable current generation. Maximum removal efficiencies of 94% COD, 92% NH4+-N, and 92% total nitrogen (TN) were achieved. A maximum power density of 1400 mW m(-2) and columbic efficiency of 69.2% were also obtained at achieved. A maximum power density of 1400 mW m(-2) and columbic efficiency of 69.2% were also obtained at a low C/N ratio of 1.7-2.6. Low C/N ratios promoted SND by balancing nitritation and denitritation. The microbial community and their predicated function results showed considerable nitrifiers and denitrificans were enriched in the ACMFCs, contributing to SND and power recovery. Further analyses showed that the NH4+-N could inhibit SND, but PBS and Rext had no obvious effects on this outcome. Co-occurrence network analysis demonstrated that power is positively correlated with COD and Rext; strong correlations between organic removal and COD, and be-tween nitrogen removal and ammonia, conductivity, and C/N ratio were also noted. Overall, the appropriate con-trol of such parameters is necessary to achieve efficient SND in ACMFCs for LCNW treatment. (C) 2021 Published by Elsevier B.V.

Automated summary

Air-cathode microbial fuel cells (ACMFCs) have shown successful treatment of low C/N ratio wastewater (LCNW) with high pollutant removal rates and sustainable current generation. The study demonstrated that low C/N ratios promote simultaneous nitritation/denitritation (SND) by balancing nitritation and denitritation, with considerable nitrifiers and denitrificans enriched in the ACMFCs contributing to SND and power recovery. Optimal control of parameters such as COD, NH4+-N, PBS, Rext, and C/N ratio is necessary for efficient SND in ACMFCs for LCNW treatment.