Research on the Method of Treating Petroleum Industry Wastewater through Biological Means in the New Era
Jianzhao Tian
DOI: https://doi.org/10.59429/pest.v5i3.1723
Keywords: Biological Means; Biochemistry; Oilfield Wastewater; Pollutant
Abstract
With the rapid development of social economy and the gradual deepening of cooperation in the world industrial system, the industrial level of a large number of developing countries, especially China, has been significantly improved. Behind the significant rise of the industrial system, energy, as the pillar of industry, plays an irreplaceable role. As the "black gold" in the industrial system, petroleum has a wide range of applications in industries such as smelting, refining, transportation, national defense, and textiles. With the significant increase in demand for petroleum in China, the treatment of wastewater from the petroleum industry has become an unavoidable issue for researchers. At present, the water content of most oil development in China has reached over 90%. How to make inefficient wells "turn waste into treasure"? As a relevant researcher, the author has conducted a unique analysis of the methods for treating oil industry wastewater through a combination of extensive literature research and practical work, hoping to bring more help to future research work.
References
Leech CA, Radhakrishnan S, Hillyer MJ. Perfomarlce Evaluation of Induced Gas F10tation(IGF) Machine Thmugh Math ModeIing. Journal of Petroleum Technology, 1980, 32(1): 48-58.
Tellez, Gilbert & Khandan, Nirmal & Gardea-Torresdey, Jorge. (2002). Performance Evaluation of an Activated Sludge System for Removing Petroleum Hydrocarbons from Oilfield Produced Water. Advances in Environmental Research. 6. 455-470.
Campos JC, Borges RM, Oliveira Filho A, Nobrega R, Sant'Anna GL Jr. Oilfield wastewater treatment by combined microfiltration and biological processes. Water Res. 2002 Jan;36(1):95-104.
Nancharaiah YV, Kiran Kumar Reddy G. Aerobic granular sludge technology: Mechanisms of granulation and biotechnological applications. Bioresour Technol. 2018 Jan;247:1128-1143.
Du, K., He, M., Lian, M. et al. Catalytic Wet Air Oxidation Treatment of Oily Wastewaters. Chem Technol Fuels Oils 52, 85–89 (2016).
Lutzu GA & Ciurli Adriana, & Chiellini C, & Di Caprio, Fabrizio & Concas, Alessandro & Dunford, Nurhan. (2021). Latest developments in wastewater treatment and biopolymer production by microalgae. Journal of Environmental Chemical Engineering. 9. 104926.
Fu K, Leng J. Research Progress on Artificial Wetland Wastewater Treatment Technology [J]. Urban Water Supply, 2022 (1): 75-80.
Zhao TL, Qin FL. Research on the treatment of high salinity oil recovery wastewater using activated sludge method [J]. Journal of Xi'an Petroleum University (Natural Science Edition), 2008 (2): 63-66.
Ju CF, Qin Y, Dai XM, et al. The effect of anaerobic sludge microbial action on the surface properties of microplastics [J]. Journal of Donghua University (Natural Science Edition), 2023,49 (3): 81-88.