SCI和EI收录∣中国化工学会会刊

Chinese Journal of Chemical Engineering ›› 2018, Vol. 26 ›› Issue (4): 879-885.DOI: 10.1016/j.cjche.2017.07.020

• Energy, Resources and Environmental Technology • 上一篇    下一篇

Oilfield produced water treatment in internal-loop airlift reactor using electrocoagulation/flotation technique

Saad H. Ammar, Ahmed S. Akbar   

  1. Department of Chemical engineering, AL-Nahrain University, Baghdad, Iraq
  • 收稿日期:2017-06-05 修回日期:2017-07-30 出版日期:2018-04-28 发布日期:2018-05-19
  • 通讯作者: Saad H. Ammar,E-mail address:drsaadchemwork@eng.nahrainuniv.edu.iq

Oilfield produced water treatment in internal-loop airlift reactor using electrocoagulation/flotation technique

Saad H. Ammar, Ahmed S. Akbar   

  1. Department of Chemical engineering, AL-Nahrain University, Baghdad, Iraq
  • Received:2017-06-05 Revised:2017-07-30 Online:2018-04-28 Published:2018-05-19
  • Contact: Saad H. Ammar,E-mail address:drsaadchemwork@eng.nahrainuniv.edu.iq

摘要: Oilfield produced water is large quantities of salty water trapped in underground formations and subsisted under high temperatures and pressures that are brought to the surface along with oil during production. Produced water (PW) contains a lot of pollutants such as hydrocarbons and metals, this water must be treated before disposal. Therefore, different techniques are being used to treat produced water. Electrocoagulation is an efficient treatment technique involving the dissolution of anodes and formation of electro-coagulants, while the simultaneous generation of H2 bubbles at the cathode leads to the pollutant removal by flotation. Electrocoagulation (EC) method is one of the most promising and widely used processes to treat oilfield produced water. In the present work, a conventional internal-loop (draught tube) airlift reactor was utilized as electrocoagulation/flotation cell for PW treatment by inserting two aluminum electrodes in the riser section of the airlift reactor. The EC airlift reactor was operated in a batch mode for the liquid phase. Different experimental parameters were studied on the oil and turbidity removal efficiencies such as current density, initial pH, electrocoagulation time, and air injection. The experimental results showed that mixing of the oil droplets in the PW was accomplished using only the liquid recirculation resulted by H2 microbubbles generated by EC process which enhanced the oil removal. The experimental results further showed that the EC time required achieving ≥ 90% oil removal efficiency decreases from 46 to 15 min when operating current density increases from 6.8 to 45.5 mA·cm-2. This reactor type was found to be highly efficient and less energy consuming compared to conventional existing electrochemical cells which used mechanical agitation.

关键词: Produced water, Wastewater treatment, Electrocoagulation/flotation, Internal loop, Airlift reactor

Abstract: Oilfield produced water is large quantities of salty water trapped in underground formations and subsisted under high temperatures and pressures that are brought to the surface along with oil during production. Produced water (PW) contains a lot of pollutants such as hydrocarbons and metals, this water must be treated before disposal. Therefore, different techniques are being used to treat produced water. Electrocoagulation is an efficient treatment technique involving the dissolution of anodes and formation of electro-coagulants, while the simultaneous generation of H2 bubbles at the cathode leads to the pollutant removal by flotation. Electrocoagulation (EC) method is one of the most promising and widely used processes to treat oilfield produced water. In the present work, a conventional internal-loop (draught tube) airlift reactor was utilized as electrocoagulation/flotation cell for PW treatment by inserting two aluminum electrodes in the riser section of the airlift reactor. The EC airlift reactor was operated in a batch mode for the liquid phase. Different experimental parameters were studied on the oil and turbidity removal efficiencies such as current density, initial pH, electrocoagulation time, and air injection. The experimental results showed that mixing of the oil droplets in the PW was accomplished using only the liquid recirculation resulted by H2 microbubbles generated by EC process which enhanced the oil removal. The experimental results further showed that the EC time required achieving ≥ 90% oil removal efficiency decreases from 46 to 15 min when operating current density increases from 6.8 to 45.5 mA·cm-2. This reactor type was found to be highly efficient and less energy consuming compared to conventional existing electrochemical cells which used mechanical agitation.

Key words: Produced water, Wastewater treatment, Electrocoagulation/flotation, Internal loop, Airlift reactor