The Degradation and Simultaneous Influence of Bisphenol a on Methane Production in a Bio-Anode Single-Chamber Microbial Electrolysis Cell

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The Degradation and Simultaneous Influence of Bisphenol a on Methane Production in a Bio-Anode Single-Chamber Microbial Electrolysis Cell Publisher

Amin MM^{1, 2} ; Arvin A^{1, 2} ; Hosseini M³ ; Darzi GN⁴ ; Ghasemi Y⁵

Show Affiliations

1. Department of Environmental Health Engineering, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran
2. Environment Research Center, Research Institute for Primordial Prevention of Non communicable disease, Isfahan University of Medical Sciences, Isfahan, Iran
3. Department of Chemical Engineering, Babol Noshirvani University of Technology, Babol, P.O.B. 484, Iran
4. Department of Chemical Engineering, Babol Noshirvani University of Technology, Babol, Iran
5. Department of Pharmaceutical Biotechnology, Shiraz University of Medical Sciences, Shiraz, Iran

Source: Biochemical Engineering Journal Published:2021

Abstract

The objective of this research was to estimate the effect of operational parameters on the performance of a bio-anode single-chamber microbial electrolysis cell (BSMEC) in degradation of bisphenol A (BPA) and simultaneous production of methane. To achieve this purpose, the influence of various parameters such as hydraulic retention time (HRT), applied voltage, C/N ratio and concentration of the BPA was examined on the performance of BSMEC during a 150-day period. According to the results, the BSMEC attained a BPA removal of 95.4%, a chemical oxygen demand (COD) removal rate of 94.9%, a methane production rate of 121.4 ± 2.2 mL/L.day and a methane content of 91.9% which were higher than these of the control system with 54.2%, 61.3% and 83.1 ± 2.2 mL/L.day and 71.1% respectively, at optimum condition (HRT=24 h, applied voltage=0.8 V, C/N ratio = 50 and BPA concentration = 10 mg/L). Our finding indicated that degradation of BPA, COD removal rate, methane production rate and methane content were improved as C/N ratio increased from 20 to 50. In the BSMEC, maximum energy efficiency was in the range of 93.1–96.8% with an average of 95.7%. As a result, the BSMEC is a promising alternative not only to degrade the endocrine disrupting compounds (EDCs) but also to generate the methane. © 2021 Elsevier B.V.

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Style	Citing Format
MLA	Amin MM, et al.. "The Degradation and Simultaneous Influence of Bisphenol a on Methane Production in a Bio-Anode Single-Chamber Microbial Electrolysis Cell." Biochemical Engineering Journal, vol. 176, no. , 2021, pp. -.
APA	Amin MM, Arvin A, Hosseini M, Darzi GN, Ghasemi Y (2021). The Degradation and Simultaneous Influence of Bisphenol a on Methane Production in a Bio-Anode Single-Chamber Microbial Electrolysis Cell. Biochemical Engineering Journal, 176(), -.
Chicago	Amin MM, Arvin A, Hosseini M, Darzi GN, Ghasemi Y. "The Degradation and Simultaneous Influence of Bisphenol a on Methane Production in a Bio-Anode Single-Chamber Microbial Electrolysis Cell." Biochemical Engineering Journal 176, no. (2021): -.
Harvard	Amin MM et al. (2021) 'The Degradation and Simultaneous Influence of Bisphenol a on Methane Production in a Bio-Anode Single-Chamber Microbial Electrolysis Cell', Biochemical Engineering Journal, 176(), pp. -.
Vancouver	Amin MM, Arvin A, Hosseini M, Darzi GN, Ghasemi Y. The Degradation and Simultaneous Influence of Bisphenol a on Methane Production in a Bio-Anode Single-Chamber Microbial Electrolysis Cell. Biochemical Engineering Journal. 2021;176():-.
BibTex	@article{ author = {Amin MM and Arvin A and Hosseini M and Darzi GN and Ghasemi Y}, title = {The Degradation and Simultaneous Influence of Bisphenol a on Methane Production in a Bio-Anode Single-Chamber Microbial Electrolysis Cell}, journal = {Biochemical Engineering Journal}, volume = {176}, number = {}, pages = {-}, year = {2021} }
RIS	TY - JOUR AU - Amin MM AU - Arvin A AU - Hosseini M AU - Darzi GN AU - Ghasemi Y TI - The Degradation and Simultaneous Influence of Bisphenol a on Methane Production in a Bio-Anode Single-Chamber Microbial Electrolysis Cell JO - Biochemical Engineering Journal VL - 176 IS - SP - EP - PY - 2021 ER -

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