화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of Industrial and Engineering Chemistry, Vol.25, 265-271, May, 2015
DOI10.1016/j.jiec.2014.11.003  Export Citation
Petrochemical wastewater treatment and reuse by MBR: A pilot study for ethylene oxide/ethylene glycol and olefin units
Mitra Bayat, Mohammad Reza Mehrnia, Mostafa Hosseinzadeh1, and Reza Sheikh-Sofla2
  • School of Chemical Engineering, College of Engineering, University of Tehran, PO Box 11155-4563, Tehran, Iran
  • 1University-Based Clean Engineering Solutions Company, Tehran, Iran
  • 2Marun Petrochemical Complex, Imam Khomeini Port Petrochemical Special Economic Zone, Bandar-e Mahshahr, Iran
E-mail:
This study aims to investigate the technical feasibility of employing membrane bioreactor (MBR) as a practical approach for ethylene oxide/ethylene glycol (EO/EG) and olefin units wastewater treatment in a petrochemical complex. EO/EG unit wastewater mainly contains ethylene glycol and acetaldehyde and olefin unit wastewater includes benzene and ethyl benzene, with COD concentration of 1900 ± 900 mg/L and 900 ± 300 mg/L, respectively. Experimental studies of MBR pilot plants with volume of 2.5 m3 were carried out during 6 months in different HRTs and various mixed ratios of EO/EG to olefin unit wastewater. Results revealed that using MBR, COD removal efficiency of 97.5% is accomplished in HRT of 13.5 h for EO/EG and 85% in HRT of 18 h for olefin wastewater. For the mixed ratio of 2/1 and in HRT of 18 and 24 h, COD removal efficiency of 93.5% and 96% was achieved, respectively. Membrane fouling was analyzed at different MLSS concentrations. The results at optimum MLSS of 8 g/L revealed that fouling resistance is mainly due to the membrane pore blocking, and cake and gel resistances contribute less to membrane fouling. Results indicated that MBR is a promising technology for treatment of high fluctuation toxic components in petrochemical wastewater.
Keywords:MBR;Wastewater treatment;Water reuse;Ethylene glycol;Olefin
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