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In this research paper, the problem of studying the effectiveness of ozone in the process of water treatment was considered. In the course of the scientific work, a review of domestic and foreign literature was conducted; its advantages and disadvantages were considered. The research paper presented the theoretical and practical methods of water purification with ozone. The main factors influencing the efficiency of the technology in the process of water purification were also considered. It was established that as a technological method of water purification, the efficiency of the ozonation process includes not only the cost of electricity, but also the efficiency of its mixing, ozone dissolution in treated water. In addition, special attention is paid to the final stage of mixing the ozone-air mixture with treated water. From the results obtained, it can be seen that after primary ozonation, the concentrations of chromium, oxidation of permanganate, iron, petroleum products, metal ions and other pollutants significantly decreased. During further water purification, organic and inorganic pollutants are removed in the future (completely or up to the requirements of the standard). However, calcium, magnesium, sulfates, chlorides, pH value, alkalinity and hardness practically do not change. The water quality after primary ozonation according to bacteriological indicators met the requirements of the standard.
Czasopismo
Rocznik
Tom
Strony
140--151
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
autor
- Satbayev University, Satpaev Str. 22, 050000, Almaty, Kazachstan
autor
- Satbayev University, Satpaev Str. 22, 050000, Almaty, Kazachstan
autor
- Satbayev University, Satpaev Str. 22, 050000, Almaty, Kazachstan
autor
- Satbayev University, Satpaev Str. 22, 050000, Almaty, Kazachstan
autor
- Satbayev University, Satpaev Str. 22, 050000, Almaty, Kazachstan
autor
- Satbayev University, Satpaev Str. 22, 050000, Almaty, Kazachstan
autor
- Satbayev University, Satpaev Str. 22, 050000, Almaty, Kazachstan
autor
- Satbayev University, Satpaev Str. 22, 050000, Almaty, Kazachstan
Bibliografia
- 1. Bahtaev S.H.A., Tojgozhinova A.Z.H., Kodzhabergenova A.K. 2014. Fizika processov obrazovaniya i poteri ozonov otricatel’noj korone Vestnik Nacional’noj Akademii Nauk Respubliki Kazahstan, Almaty, 4, 36–41.
- 2. 2. Bahtaev SH.A., Tojgozhinova A.Z.H., Sydykova G.A. 2014. O raspredelenii plotnosti ozona v razryadnoj zone otricatel’noj korony. Doklady Nacional’noj Akademii Nauk Respubliki Kazahstan, Almaty, 4, 41–46
- 3. Yavorovskij N.A., Sokolov V.D., Skolubovich Y.U. A, Li I.S. 2000. Ochistka vody s primeneniem elektrorazryadnoj obrabotki. Vodosnabzhenie i Santekhnika, 1, 12–14.
- 4. Ivanov V.G., Dikarevskij V.S. I Dr. 2000. Obezzarazhivanie pit’evyh i stochnyh vod produktami elektrohimicheskoj aktivacii. Vodosnabzhenie i Santekhnika, 10, 26–28.
- 5. Mnuhin A.G., Bryuhanov A.M., Nasonov S.V., Mnuhin V.A. 2020. Obezzarazhivanie poverhnostnyh i stochnyh vod s pomoshch’yu elektrogidravlicheskogo vozdejstviya. Vodosnabzhenie i Santekhnika, 11, 18–19.
- 6. Goncharuk V.V., Potapchenko N.G. i dr. 2001. Obezzarazhivanie vody ozonom. Vliyanie neorganicheskih primesej na kinetiku obezzarazhivaniya vody. Himiya i Tekhnologiya Vody, 23(2), 198–208.
- 7. Baryshnikov V.V., Hmara V.F. i dr. 2000. Primenenie ozono-fil’troval’nyh ustanovok dlya ochistki prirodnyh vod. Vodosnabzhenie i Santekhnika, 1, 15–16.
- 8. Draginskij V.L., Alekseeva L.P. 2002. Obrazovanie toksichnyh produktov pri ispol’zovanii razlichnyh okislitelej dlya ochistki vody. Vodosnabzhenie i Sanitarnaya Tekhnika, 2, 9–12.
- 9. Sokolov V.D., Usol’cev V.A., Skolubovich Y.U.L., Alekseeva L.P., Draginskij V.L. 2001. Podgotovka vody pit’evogo kachestva v gorode Kemerovo. M.
- 10. Draginskij V.L., Usol’cev V.A., Sokolov V.D., Alekseeva L.P. 1994. Primenenie ozona na Kemerovskom vodoprovode. Vserossijskaya Konferenciya "Ozon-94", Tezisy Dokladov. Ufa Reaktiv.
- 11. Draginskij V.L., Alekseeva L.P., Sabel’fel’d A.V., Gridasov G.G., Usol’cev V. A., Sokolov V. D. 1999. Podgotovka vodoochistnyh stancij k rabote usloviyah trebovanij SanPiN 2.1.559-96 (na primere gorodov Kuzbassa). Vodosnabzhenie i Sanitarnaya Tekhnika, 11.
- 12. Belyh I.A. 2009. Toksicheskoe dejstvie ozona na bakterii Escherichia coli. I.A. Belyh, I.P. Vysekancev, A.M. Grek, A.V. Sakun, V.V. Marushchenko, 1, 48–53.
- 13. Bozhko I.V. 2006. Elektrodnaya sistema dlya razryadnyh ustrojstv s polozhitel’noj strimernoj koronoj. I.V. Bozhko, I.S. Petuhov, N.I. Fal’kovskij (Eds.). Tekhn. Elektrodinamika, 3, 49–53.
- 14. Vlasov V.V. 2008. Elementarnye processy v plazme gazovogo razryada. H.: HNU, 175.
- 15. Bahtaev S.H.A., Sydykova G.K., Tojgozhinova A.Z.H. 2010. Razrabotka istochnika vysokovol’tnyh impul’sov dlya ozonatornoj yachejki. Mezhd. Nauchprakt. Konf. "Perspektivnye napravleniya al’ternativnoj energetiki i energosberegayushchie tekhnologii", Shymkent, 2, 63–65.
- 16. Bahtaev S.H.A., Tojgozhinova A.Z.H., Zhirnova O.V., Wojcik W., Sulejmenov B.A., Koshimbaev S.H.K. 2017. Modelirovanie processa ozonirovaniya vozduha v rabochem obeme pri szhiganii biogaza. Vysshaya Shkola Kazahstana. Mezhdunarodnoe Nauchno-Pedogogicheskoe Izdanie, 1(1), 280–289.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e6a5c7b7-a85b-4339-afff-db0c5f0c2015