Cascade degradation of organic matters in brewery wastewater using a continuous stirred microbial electrochemical reactor and analysis of microbial communities
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Date
2016Author
Wang, Haiman
Qu, Youpeng
Li, Da
Ambuchi, John Justo
He, Weihua
Zhou, Xiangtong
Liu, Jia
Feng, Yujie
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A continuous stirred microbial electrochemical reactor (CSMER), comprising of a complete mixing
zone (CMZ) and microbial electrochemical zone (MEZ), was used for brewery wastewater treatment.
The system realized 75.4±5.7% of TCOD and 64.9±4.9% of TSS when fed with brewery wastewater
concomitantly achieving an average maximum power density of 304±31m W m−2. Cascade utilization
of organic matters made the CSMER remove a wider range of substrates compared with a continuous
stirred tank reactor (CSTR), in which process 79.1±5.6% of soluble protein and 86.6±2.2% of soluble
carbohydrates were degraded by anaerobic digestion in the CMZ and short-chain volatile fatty acids
were further decomposed and generated current in the MEZ. Co-existence of fermentative bacteria
(Clostridium and Bacteroides, 19.7% and 5.0%), acetogenic bacteria (Syntrophobacter, 20.8%),
methanogenic archaea (Methanosaeta and Methanobacterium, 40.3% and 38.4%) and exoelectrogens
(Geobacter, 12.4%) as well as a clear spatial distribution and syntrophic interaction among them
contributed to the cascade degradation process in CSMER. The CSMER shows great promise for
practical wastewater treatment application due to high pre-hydrolysis and acidification rate, high
energy recovery and low capital cost
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