Research advances and perspective on treatment processes for oily wastewater

被引:0
|
作者
Wang C. [1 ,2 ]
Zhang X. [1 ]
Ning P. [2 ]
Yuan W. [1 ]
Bai J. [1 ]
Wang J. [1 ]
机构
[1] WEEE Research Center, Research Center of Resource Recycling Science and Engineering, Shanghai Polytechnic University, Shanghai Collaborative Innovation Center for WEEE Recycling, Shanghai
[2] Beijing Engineering Research Center of Process Pollution Control, Key Laboratory of Green Process and Engineering, Division of Environment Technology and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing
来源
Huagong Jinzhan/Chemical Industry and Engineering Progress | 2021年 / 40卷 / 01期
关键词
Adsorption; Dissolution; Emulsification; Oily wastewater; Organic compounds; Resin;
D O I
10.16085/j.issn.1000-6613.2020-0452
中图分类号
学科分类号
摘要
Oily wastewater is generated in many industrial processes, such as petroleum refining, petrochemicals, food, leather and metal processing, and has always been the focus of industrial pollution control. With the continuous development of industrial production technology, the types of characteristic pollutants in oil-containing wastewater and their discharges have also continued to increase, posing challenges to the deep removal and recovery of oil from industrial wastewater. Due to the variety of organic matters in the oily wastewater, the different environments, and the complex internal reactions, it not only affects the production efficiency of the multi-stage process, but also has an environmental risk. Therefore, the efficient and advanced treatment and utilization of industrial oily wastewater is an inevitable requirement for industrial pollution control, and has an important role in promoting the sustainable development of industrial production. In view of this, on the basis of systematic analysis of the characteristics of industrial oily wastewater, this article reviews the latest research progress at home and abroad on the treatment of emulsified oil and dissolved oil from the perspective of separate processes and combined processes, and focuses on principle and characteristics, degreasing potential, application benefits and its advantages compared with the other degreasing technologies. Finally, the perspective for resin degreasing technologies is presented. © 2021, Chemical Industry Press Co., Ltd. All right reserved.
引用
收藏
页码:451 / 462
页数:11
相关论文
共 79 条
  • [21] BENGANI P, KOU Y M, ASATEKIN A., Zwitterionic copolymer self-assembly for fouling resistant, high flux membranes with size-based small molecule selectivity, Journal of Membrane Science, 493, pp. 376-388, (2015)
  • [22] WANG J, WANG Z, WANG J X, Et al., Improving the water flux and bio-fouling resistance of reverse osmosis (RO) membrane through surface modification by zwitterionic polymer, Journal of Membrane Science, 493, pp. 188-199, (2015)
  • [23] HE K, DUAN H R, CHEN G Y, Et al., Cleaning of oil fouling with water enabled by zwitterionic polyelectrolyte coatings: overcoming the imperative challenge of oil-water separation membranes, ACS Nano, 9, 9, pp. 188-198, (2015)
  • [24] SHEN Z, CHEN W, XU H, Et al., Fabrication of a novel antifouling polysulfone membrane with in situ embedment of mxene nanosheets, International Journal of Environmental Research and Public Health, 16, 23, pp. 46-59, (2019)
  • [25] KIM T, LEE J S, LEE G, Et al., Autonomous graphene vessel for suctioning and storing liquid body of spilled oil, Scientific Reports, 6, pp. 23-29, (2016)
  • [26] TAKEDA M., Separation characteristics obtained from electrode partitioning MHD method for separating oil from contaminated seawater using high-field superconducting magnet, IEEE Transaction on Applied Superconductivity, 22, 3, (2012)
  • [27] PENG Y, ZHAO L Z., Primary numerical simulation of maritime oil-spill recovery system based on MHD, pp. 634-637, (2003)
  • [28] PENG Yan, WANG Zhaolian, ZHAO Lingzhi, Et al., Research on marine floating-oil recovery technology based on magnetohydrodynamic method, Marine Environmental Science, 33, 4, pp. 592-597, (2014)
  • [29] JIANG W M, JIANG B, SHI N J., The flow and separation characteristics of two-phase flow in the oil-water separation device under electromagnetic field, Industrial Water Treatment, 36, 1, pp. 21-25, (2016)
  • [30] FU Fadong, BIAN jiang, YU Dandan, Et al., Field test of air flotation magnetic separation wastewater treatment technology in Shengli oilfield, Oil and Gas Field Surface Engineering, 3, pp. 22-24, (2015)
12345678