Advancements in Life Sciences

This paper focuses on industrial water treatment, namely modern methods and technologies of pollution removal. The paper discusses the main problems associated with industrial wastewater pollution and describes the most effective purification methods and technologies used in modern industrial processes. Information is provided that allows for a comprehensive and accurate study of modern methods and technologies of industrial water treatment, including a detailed analysis and assessment of the advantages and disadvantages of each of these methods. Authors conducted a literature review for collecting relevant biochemical and molecular approaches to industrial wastewater treatment. Relevant reviews and research papers were selected for detailed analysis. The authors have described each method and provided examples of its application and effectiveness in removing certain types of contaminants. The results of the study indicate that there are many methods and technologies for water purification, but not every method is suitable for all pollution types. The paper contains new data and practical recommendations that can be used by specialists in the field of water treatment to reduce the negative impact on the environment.

Prosekov AYu, Timoshchuk IV, Gorelkina AK. On the issue of using waste from water desalting ion exchange plants of power plants. Teoreticheskaya i prikladnaya ekologiya, (2021); 4: 127-132.

Krasnova TA, Timosсhuk IV, Gorelkina AK, Dugarjav J. The choice of sorbent for adsorption extraction of chloroform from drinking water. Foods and Raw materials, (2017); 5(2): 189-196.

Krasnova T, Gorelkina A, Kirsanov M. Using adsorption to reduce pollution of water resources. Ekologiya i promyshlennost Rossii, (2018); 22(1): 44-49.

Vaitsel AA. Mechanical methods of wastewater treatment. Nauka, obrazovanie i kultura, (2019); 3(37): 13-14.

Karpukhin MM. Enterprise wastewater: How it is treated. 2018, September 25. Available from: https://www.msulab.ru/knowledge/water/stochnye-vody-predpriyatiya/ (access date: March 26, 2023).

Arshidinov MM, Ospanova GSh. Ozonization purification of industrial plants wastewater. Bulletin of the Almaty University of Energy and Communication, (2020); 3(50): 90-95.

Sabliy L, Zhukova V. Effective technology of pharmaceutical enterprises wastewater local treatment from antibiotics. Biotechnologia Acta, (2020); 13(3): 81-88.

Berdieva MT, Toktubakiev BO, Kalybek UM. Development of measures for purification of waste water from harmful substances of dairy production. Nauka, novyye tekhnologii i innovatsii Kyrgyzstana, (2021); 4: 164-166.

Druzhinskaya OI. Analysis of technologies and methods for wastewater treatment in textile production: Design, technology and innovation in the textile and light industry (Innovations 2018). A collection of papers presented at the international scientific and technical conference, 2018; 109-111. Federal State Budgetary Educational Institution of Higher Education A.N. Kosygin Russian State University (Technology. Design. Art), Moscow.

Rostvinskaya VS. Study of wastewater treatment methods. Tribuna uchenogo, (2020); 7: 78-84.

Decree of the Government of the Russian Federation No. 644 "On approval of the Rules for cold water supply and disposal and on amendments to certain acts of the Government of the Russian Federation". July 29, 2013. Available from: https://base.garant.ru/70427212/ (access date: March 26, 2023).

Afanaseva FA, Ivanov AP, Lovtsov AE. Household wastewater treatment in compact plants. Vodosnabzhenie i sanitarnaya tekhnika, (2003); 11: 34-39.

Fedotova YuV, Spitsyn AA. Wastewater treatment in wood chemical industries. Evraziiskii soyuz uchenykh, (2019); 12-5(69): 46-51.

Dudorov VE, Khismatulina DN, Iskhakova ER. Wastewater treatment methods, types of treatment plants and innovations in the field of wastewater treatment. Nauka sredi nas, (2019); 4(20): 43-48.

Buzin IS. Modern wastewater treatment methods. MSULab. 2022, May 27. Available from: https://www.msulab.ru/knowledge/water/sovremennye-metody-ochistki-stochnykh-vod/ (access date: March 26, 2023).

Aksenov VI, Migalatii EV, Nikiforov AF. Water and waste water treatment: A manual in 2 parts: Part 1. A manual for students of higher educational institutions enrolled in program 280700 "Technospheric safety", 2011; 167. Izd-vo IP Chesnokov A. V., Tambov.

Dubrovskay OG, Kulagin VA, Kurilina TA, Li FCh. Application of modified sorption material for efficient wastewater treatment of galvanic production. Journal of Siberian Federal University. Engineering and Technologies, (2017); 10(5): 621-630.

Koganovskii AM, Kulskii LA, Sotnikova EV. Industrial wastewater treatment. 1974; 257. Tekhnika, Moscow.

Khurramov MG, Shoinazarov RM. A treatment method for insufficiently treated wastewater: Ecological well-being and a healthy lifestyle of a person in the 21st century: political, legal, socio-economic, psychological and humanitarian aspects. Proceedings of the international research and practice conference, Novorossiysk-Stavropol, November 23-24, 2017: 143-146. Novorossiiskii institut (filial) ANO VO Moskovskii gumanitarno-ekonomicheskii universitet, Tsentr nauchnogo znaniya Logos, Novorossiisk-Stavropol.

Abdukhakimov MK, Garipov IT, Khaydarov RA, Khaydarov RR, Gapurova OU, Sadikov II, Praveen TK, Evgrafova SY. Novel ion exchange fibers for wastewater treatment from heavy metal ions. Management of the Technosphere, (2021); 4(1): 88-97.

Myrzalieva SK, Pratama GNIP, Khamidulla AG. Wastewater treatment using natural zeolite materials. Complex Use of Mineral Resources, (2021); 2(317): 64-68.

Myrzalieva SK, Bagasharova ZhT, Akilbekova ShK. Study of the possibility of using zeolite and diatomite in the treatment of oil - contaminated wastewater. Complex Use of Mineral Resources, (2022); 3(322): 33-42.

Vysotina AA. Wastewater treatment of timber industry enterprises by flotation method. Molodezh'. Obshchestvo. Sovremennaya nauka, tekhnika i innovatsii, (2022); 21: 205-207.

Hasanov AA, Shikhiyev RA. Adsorption treatment of textile wastewater contaminated with synthetic dyes. Azerbaijan Chemical Journal, (2022); 3: 70-74.

Myazin VP, Litvintseva OV. Circulating water supply of enrichment plants. Methods of purification and conditioning of wastewater and circulating water: a manual. 2011; 153. RIK ChitGU, Chita.

Aksenov VI, Migalatii EV, Nikiforov AF. Water and waste water treatment: A manual in 2 parts: Part 2. Water treatment. Treatment of drinking and service water: A manual for the master's program "Integrated use of water resources". 2011; 172. Izd-vo IP Chesnokov A. V., Tambov.

Yernazarova GI, Bukharbayeva ZhM, Zayadan BK, Turasheva SK, Omarova GK. Development of technology for biological treatment of oily wastewater with а consortium of microorganisms, microalgae and aquatic plants. Bulletin of the Karaganda University. Biology. Medicine. Geography Series, (2021); 102(2): 30-36.

Ivanov DB, Uraleva AI. Metody ochistki neftesoderzhashchikh stochnykh vod [Treatment methods for oily wastewater]. Naukosfera, (2021); 71: 175-180.

Mammadov HN, Sadigova AA. On the development of environmentally sound methods of wastewater treatment of petrochemical complexes. Herald of the Azerbaijan Engineering Academy, (2022); 14(4): 120-128.

Khobotova EB, Hraivoronska IV, Кaliuzhna IuS, Ihnatenko MI. Sorption purification of wastewater from organic dyes using granulated blast-furnace slag. ChemChemTech, (2021); 64(6): 89-94.

Pervov AG, Tikhonov KV. A new technique to purify biologically treated wastewater by reverse osmosis: Utilization of concentrate. Vestnik MGSU, (2020); 15(5): 688-700.

Grakova AG. Optimization of the structure decisions in designing a membrane bioreactor to increase the efficiency of treatment waste water of the dairy industry. Modern Science and Innovations, (2020); 3(31): 121-131.

Murzagalieva MG, Ashimkhan NS, Tanybayeva AA, Rysmagambetova AA. Physicochemical study of the adsorption properties of natural minerals for the sorption treatment of wastewaters. Chemical Journal of Kazakhstan, (2022); 4(80): 15-25.