Characterization of methane production and microbial community shifts during waste activated sludge degradation in microbial electrolysis cells
Copyright policy )Characterization of methane production and microbial community shifts during waste activated sludge degradation in microbial electrolysis cells
Microbial electrolysis cell (MECs) were investigated as a promising technology to manage waste activated sludge (WAS) reduction and bio-methane generation. The effect of WAS concentration on the MECs performance was discussed. At the optimal concentration of 15gCOD/L, maximum methane yield of MECs fed with alkaline pretreated WAS (A-WAS) were achieved with the value of 77.13±2.52LCH4/kg-COD on Day 3, which had been improved by 1.5-fold compared with MECs fed with raw WAS (R-WAS), while that was negligible in open circuit controls. Efficient sludge reduction was also obtained in terms of TCOD, total protein, TSS and VSS removal. Pyrosequencing revealed the dominance of exoelectrogen Geobacter and hydrogen-producing bacteria Petrimonas in MECs fed with WAS. Methanocorpusculum with the capacity of methane generation using CO2 and H2 also showed overwhelming dominance (96.01%). The large proportions of Petrimonas and Methanocorpusculum indicated the occurrence of hydrogenotrophic methanogenesis in our methane-producing MECs.
- Harbin Institute of Technology China (People's Republic of)
- State Key Laboratory of Urban Water Resources and Water Environment China (People's Republic of)
- State Key Laboratory of Urban Water Resources and Water Environment China (People's Republic of)
- Harbin Institute of Technology China (People's Republic of)
Bacteria, Sewage, Electrolysis, Methanomicrobiales, Refuse Disposal, Bioreactors, Geobacter, Methane
Bacteria, Sewage, Electrolysis, Methanomicrobiales, Refuse Disposal, Bioreactors, Geobacter, Methane
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