Remediation of simulated malodorous surface water by columnar air cathode microbial fuel cells

Malodorous surface water is an important worldwide environmental concern. Current remechation methods, such as aeration or the addition of chemicals, are not eco-friendly clue to their high energy consumption or secondary pollution. This study proposed a modified columnar air -cathode microbial fuel cell as a sustainable and effective remediation module to improve water quality. The excellent and economic sheet air -cathode (activated carbon and carbon black as the catalyst layer) and a carbon brush anode were applied in the columnar air -cathode microbial fuel cell (MFC). The results after 48 h showed that by providing the anode as an electron acceptor and enriching electrochemically -active bacteria, MFCs with different external resistances (5 k Omega, 30 Omega, and 2 Omega) exhibited the much better capacity to improve water quality than the Blank group. The maximum COD and sulfide removal rates in the MFCs were approximately 86.3% and 10008, respectively, which were higher than those of the Blank group by 30% and 35%, respectively. The MFCs also showed maximum sulfate increments from 28 mg L-1 to 98 mg L-1 compared with the sulfate reduction to 10 mg L-1 in the Blank group. The oxidation reduction potential (ORP) of the Mils dramatically increased from -281.2 mV to -135.7 mV after 24 h, whereas the ORP of the Blank group decreased to -287.7 mV. The enrichment of the aerobic bacteria Acinetobacter on the anodes and chemolithoautotrophic sulfide oxidation bacteria Sulturicurvum, Thiovirga and Thiobacillus in the MFCs could also contribute to COD and sulfide removal. Cathode reduction, which could produce small amounts of hydroxyl radicals, might assist with the ORP elevation and the complete oxidation of dissolved sulfide to sulfate. (C) 2019 Elsevier B.V. All rights reserved.