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Published
2024-04-08
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Articles
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ASSESSMENT OF EFFICIENCY OF ULTRAFILTRATION METHOD IN TREATMENT OF OILY WASTEWATERS
Rizaev Abdumalik Nabiyevich
Professor, Tashkent State Transport University
Bakhramov Umarhodja
Professor, Tashkent State Transport University
Umarov Uchkun Vafokulovich
Acting Associate Professor, Tashkent State Transport University
Rikhsikhodjaeva Gulchehra Rashidkhodjaevna
Associate Professor, Tashkent State Transport University
Khudaiberganova Nagima Turdibaevna
senior lecturer, Tashkent State Transport University
Keywords: ultrafiltration, oily wastewater, water treatment, environmental pollution, water resources, environmental sustainability.
Abstract
This paper is devoted to the study of ultrafiltration method in the context of oily wastewater treatment. Oily wastewater is a serious environmental problem and requires effective treatment methods to prevent pollution of water resources. The ultrafiltration method is a promising approach to remove micro- and macromolecular contaminants, including petroleum products, from wastewater. This article discusses the principles of ultrafiltration, the main components of the system and the process of oily wastewater treatment. In addition, the advantages and limitations of the ultrafiltration method are discussed, as well as the prospects for its use in industry and research. Based on the results obtained, this paper contributes to the field of wastewater treatment and suggests new ways to improve the efficiency and environmental sustainability of the ultrafiltration process.
References
Chen, J., Zhang, M., & Shi, W. (2015). Ultrafiltration membrane fouling by humic acid: effects of membrane pore size and humic acid molecular weight. Desalination and Water Treatment, 57(19), 8834-8842.
Jia, L., Zhang, X., Jin, L., & Lu, Y. (2019). Treatment of oily wastewater by ultrafiltration using PVDF membranes modified by polyethylene glycol and carbon nanotubes. Journal of Environmental Chemical Engineering, 7(3), 103155.
Kang, G. D., & Cao, Y. M. (2012). Application of membrane separation technology in oily wastewater treatment: a review. Chemical Engineering Journal, 198, 519-539.
Liu, X., Xu, H., Zhang, Y., & Zhang, L. (2020). A comprehensive review on fouling in ultrafiltration for oily wastewater treatment: fouling characteristics, mechanisms, and control strategies. Journal of Environmental Management, 257, 109999.
Meng, X., Liu, R., Zhao, X., & Li, C. (2016). Enhanced treatment of oilfield-produced water using polyethyleneimine-modified polyvinylidene fluoride membranes in a submerged ultrafiltration system. Separation and Purification Technology, 171, 46-53.
Srisurichan, S., Jangjan, S., & Chiemchaisri, C. (2021). Oil-water separation using hydrophilic PVDF ultrafiltration membrane modified by polysiloxane nanofiber. Journal of Environmental Chemical Engineering, 9(3), 105283.
Tan, X. L., Xie, J. F., Tang, C. Y., Goh, K., & Ng, H. Y. (2017). Membrane fouling control in ultrafiltration for oily wastewater treatment: a review. Desalination, 406, 1-15.
Wang, L., Ren, Y., Li, Y., Li, D., & Wei, X. (2019). A novel hybrid membrane system for efficient treatment of oilfield-produced water. Journal of Membrane Science, 584, 116-126.
Wang, Y., & Chen, V. (2017). Recent advances in membranes for oily wastewater treatment. Chemical Engineering Journal, 330, 1369-1382.
Zhang, Y., Wang, X., Dong, X., & Liu, J. (2016). Preparation and characterization of ceramic ultrafiltration membranes for oil-water separation. Journal of Membrane Science, 510, 427-436.
Laue S., Abdullaev S. S. Legends and True Stories about the Samanid Mausoleum //EUROPEAN JOURNAL OF INNOVATION IN NONFORMAL EDUCATION. – 2022. – Т. 2. – №. 2. – С. 308-311.
Abdullayev¹ S. F., Abdullayev S. S. TRANSLATION OF CULTURAL VALUES IN THE ARTISTIC HERITAGE OF TRADITIONAL APPLIED ARTS OF BUKHARA.
Sayfullayevich A. S. CHALLENGES OF TRAINING FINE ARTS TEACHERS IN THE PRESENT //International Conference on Research Identity, Value and Ethics. – 2023. – С. 348-353.
Abdullaev S., Mamatov D. Pedagogical foundations in the teaching of folk arts and crafts of Uzbekistan in the training of teachers of fine arts //E3S Web of Conferences. – EDP Sciences, 2023. – Т. 420. – С. 10019.
Aminov, A. S., Mamurova, D. I., & Shukurov, A. R. (2021, February). Additional and didactic game technologies on the topic of local appearance. In E-Conference globe (pp. 34-37).
Olimov S. S., Mamurova D. I. Information Technology in Education //Pioneer: Journal of Advanced Research and Scientific Progress. – 2022. – Т. 1. – №. 1. – С. 17-22.
Mamurova D., Khusnidinova N. Didactic possibilities of using computer graphics programs in the educational process //BIO Web of Conferences. – EDP Sciences, 2024. – Т. 84. – С. 02020.
Khodjayeva, Nodira. "THE URGENCY OF AUTHENTIC MATERIALS IN PROSPECTIVE FOREIGN LANGUAGE TEACHING." Евразийский журнал социальных наук, философии и культуры 3.5 (2023): 77-80.
Botirov, J. S., Bakaev, S. S., Avliyakulov, M. M., Shirinov, A. L., & Abdullaev, S. S. (2021). The same goes for art classes in private schools specific properties. Journal of Contemporary Issues in Business and Government Vol, 27(2).
