Research progress on the application of oil-containing petrochemical wastewater treatment technologies

• 1、etroChina Xinjiang Oilfield Company, Karamay, Xinjiang 834000, China

Abstract：Petrochemical oily wastewater commonly contains recalcitrant organic compounds, emulsified oils, heavy metals, and high salinity, resulting in complex multiphase pollution that poses significant challenges to conventional treatment methods. This paper provides a systematic review of mainstream treatment technologies for petrochemical oily wastewater, including Fenton oxidation, ozone oxidation, photocatalysis, electrocoagulation, membrane separation, and biological treatment. Each technology is analyzed in terms of its mechanism, advantages, and key limitatiResearch progress on the application of oil-containing petrochemical wastewater treatment technologiesons. Advanced oxidation processes (AOPs), which rely on non-selective free radical chain reactions, are effective for degrading persistent organic pollutants. Electrocoagulation utilizes electro-generated metal hydroxide flocs for adsorption, complexation, and flotation, excelling in the removal of oil and colloids. Membrane separation offers nanoscale filtration precision, making it suitable for advanced purification and resource recovery, though it is constrained by membrane fouling and high operational costs. Biological treatment is cost-effective and environmentally friendly, but microbial activity is often suppressed in high-salinity and high-toxicity conditions, necessitating the development of halotolerant microbial consortia and optimized bioprocesses. Given the multifaceted nature of petrochemical wastewater, single technologies often fall short. Future research should emphasize hybrid systems and functional material innovations. Simultaneously, the advancement toward low-carbon and intelligent treatment processes is essential, promoting a closed-loop system that integrates pollution reduction with resource recovery. This review aims to offer theoretical guidance and engineering insights to support the green transition and sustainable development of the petrochemical industry under the dual-carbon strategy.

Keywords： oil-containing petrochemical wastewater advanced oxidation technology electroflocculation membrane separation biological treatment