Intensification of storm water treatment of wood transfering wood termination facilities
- 作者: Popova T.Y.1, Golovin V.L.1, Volkova V.N.1
-
隶属关系:
- Far Eastern Federal University
- 期: 卷 32, 编号 4 (2024)
- 页面: 400-408
- 栏目: Industrial Ecology
- URL: https://journal-vniispk.ru/2313-2310/article/view/324065
- DOI: https://doi.org/10.22363/2313-2310-2024-32-4-400-408
- EDN: https://elibrary.ru/NEHIJZ
- ID: 324065
如何引用文章
详细
The study presents the experience of operating water treatment plants, analyzes the dangerous consequences of pre-chlorination during the discoloration of natural waters, and examines the mechanisms of action of chlorine-containing components on organic impurities contained in untreated water. The necessity of pretreatment of water before prechlorination, which ensures the mandatory destruction of organo-complex compounds, has been determined. The principles of pretreatment of natural waters in a biologically active environment are substantiated, which will eliminate the formation of toxic substances and pathogenic microorganisms.
作者简介
Tatyana Popova
Far Eastern Federal University
Email: popova.tyu@dvfu.ru
Senior Lecturer, Polytechnic Institute 10 village Ajax, Vladivostok, Russky Island, 690922, Russian Federation
Viktor Golovin
Far Eastern Federal University
Email: golovin.vl@dvfu.ru
PhD in Technical Sciences, Associate Professor, Professor, Polytechnic Institute 10 village Ajax, Vladivostok, Russky Island, 690922, Russian Federation
Vladislava Volkova
Far Eastern Federal University
编辑信件的主要联系方式.
Email: vladavibi@bk.ru
ORCID iD: 0000-0001-9078-9858
PhD in Technical Sciences, Senior Lecturer, Polytechnic Institute
10 village Ajax, Vladivostok, Russky Island, 690922, Russian Federation参考
- Voitov EL. Purification of low-turbidity natural waters with a high content of organic compounds for drinking water supply (Abstract of the dissertation). Novosibirsk; 2012.
- Kanivets US. Reagent pretreatment of low-turbid non-ferrous waters in a technological scheme with a clarifier with a suspended sediment. Construction - formation of the living environment: A collection of materials from the seminar of young scientists of the XXV International Scientific Conference, Moscow, April 20-22, 2022. Moscow: National Research Moscow State University of Civil Engineering; 2022. p. 91-96.
- Voitov EL, Skolubovich YuL, Rudyak Vya, Degtyarev VV, Chirkunov YuA. Innovative technology of groundwater preparation for drinking water supply in settlements of Western Siberia. News of higher educational institutions. Construction. 2023;7:105-118.
- Hetsuriani ED, Manyushkin DK, Hetsuriani TE, Bondarenko VL. Prevention of water pollution with organochlorine compounds during natural water purification. Scientific foundations of the creation and implementation of modern health-saving technologies: proceedings of the IX International scientific and practical conference, Rostov-on-Don, November 18, 2022. Rostov State Medical University of the Ministry of Health of the Russian Federation; Volga Federal State Budgetary Scientific Research Institute for the Production and Processing of Meat and Dairy Products. Vol. 1. Volgograd: Limited Liability Company “SPHERE”; 2022. p. 209-213.
- Kirpichenkova EV. Dzhikiya IZ, Kolodina DV, Onishchenko GG. Hygienic efficiency of ultraviolet disinfection of water in centralized drinking and household water supply systems (systematic review). Hygiene and sanitation. 2024;103(2):104-112. https://doi.org/10.47470/0016-9900-2024-103-2-104-112
- Golovin VL, Popova TY, Medved PV, Bezborodov SA. Therapeutic features of natural waters with high chromaticity. IOP Conference Series: Earth and Environmental Science. International science and technology conference “Earth science”. 2021;666. https://doi.org/10.1088/1755-1315/666/4/042039
- Koloshnitsyn ZN, Ushakova IG. Possibilities of including biological pretreatment methods in technological schemes of water treatment of Siberian rivers. Catalog of final qualifying works of the Omsk State Agrarian University: series “Environmental management and water use”: Collection of works. Omsk: Omsk State Agrarian University named after P.A. Stolypin; 2022.
- Vasiliev AL. Development of technologies and installations for the production of drinking water from surface sources using ozone: specialty 05.23.04 “Water supply, sewerage, construction systems for the protection of water resources” (dissertation). Nizhny Novgorod; 2011.
- Vasiliev AL. Tarasov AS, Guseva LD. Modern methods of disinfection of drinking water. Volga Scientific Journal. 2022;3:83-89.
- Golovin VL, Marchenko AYu. Method of groundwater purification from stable forms of iron: No. 99102891/12. Patent No. 2161594 C2 Russian Federation, IPC C02F 1/64, C02F 3/34; application 15.02.1999; publ. 10.01.2001; applicant: State Enterprise “Far Eastern Scientific Research Institute of Hydraulic Engineering and Melioration”.
- Gutyar S, Bork J, Khan HJ. Grundwasser fauna as an indicator of the hydrogeological complex in the upper part of the Western Kaiserstuhl. Grundwasser. 2013;18:173-184.
- Boone S, Vigo C, Boone TJ, Byrne C, Ferrario J. Per- and polyfluoroalkyl substances in source and treated drinking waters of the United States. Science of the Total Environment. 2019;653:359-369. https://doi.org/10.1016/j.scitotenv.2018.10.245.
- Popova T, Golovin V, Medved P. Microbiological Treatment of High-Coloring Natural Waters. International science and technology conference “FarEastCon-2019” IOP Conf. Series: Materials Science and Engineering. 2020;753:052042. http://dx.doi.org/10.1088/1757-899X/753/5/052042
补充文件
