A comparative study of the anaerobic baffled reactor and an integrated anaerobic baffled reactor and microbial electrolysis cell for treatment of petrochemical wastewater

•The performance of ABR-MEC were affected by the applied voltage and the HRT.•The applied voltage on electrode improved the performance of the ABR-MEC reactor.•Decreasing of HRT leads to the decreased removal rate of COD and methane production.•Energy consumption could be neglected compared to the i...

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Bibliographic Details
Published in:Biochemical engineering journal 2019-04, Vol.144, p.157-165
Main Authors: Arvin, Amin, Hosseini, Morteza, Amin, Mohammad Mehdi, Najafpour Darzi, Ghasem, Ghasemi, Younes
Format: Article
Language:English
Subjects:
Anaerobic baffled reactor
Methane production
Microbial electrolysis cell
Petrochemical wastewater
Treatment
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Summary:•The performance of ABR-MEC were affected by the applied voltage and the HRT.•The applied voltage on electrode improved the performance of the ABR-MEC reactor.•Decreasing of HRT leads to the decreased removal rate of COD and methane production.•Energy consumption could be neglected compared to the incremental methane at 1 V.•The increase of voltage and higher HRT leads to improving stabilization of ABR-MEC. The aim of this study was to evaluate and compare the treatment of petrochemical wastewater with an integrated anaerobic baffled reactor and microbial electrolysis cell (ABR-MEC) and anaerobic baffled reactor (ABR). For this purpose, the effect of hydraulic retention time (HRT) and applied voltage on the performance of ABR-MEC reactor were investigated in four phases. Regarding the results, the maximum COD removal efficiency in the ABR-MEC reactor was higher than that in ABR reactor, i.e. 96.5% versus 66.7%. Also, the maximum of yield CH4 in ABR-MEC reactor was 1.4-fold than ABR reactor. The results show that the applied voltages can increase the removal of chemical oxygen demand, methane production, accelerate the conversion of volatile fatty acids and maintain the appropriate pH range for methanogen growth.
ISSN:1369-703X
1873-295X
DOI:10.1016/j.bej.2019.01.021