FORMATION OF AN ENVIRONMENTAL SAFETY SYSTEM FOR WATER TREATMENT AND WASTEWATER TREATMENT PROCESSES BASED ON THE PRINCIPLES OF RESOURCE CONSERVATION AND ENVIRONMENTAL FRIENDLINESS
Abstract and keywords
Abstract (English):
Environmental safety refers to the state of protection of the natural environment and humans by ensuring an acceptable level of negative impact of natural and anthropogenic environmental hazards on the environment and humans. Based on the principles of nature similarity, resource substitution and conservation, modules and components of environmental safety of drinking water treatment and wastewater treatment processes have been formed. The functions of each module of the aquatic safety ecosystem are disclosed. Dangerous events and hazard factors in the processes of water treatment and water treatment are presented. The content of the system components of environmental safety of water treatment and wastewater treatment processes has been established: sanitary and epidemiological safety, consumer safety, technical safety, environmental safety of production and environmental and economic safety. An algorithm for the environmentally sustainable functioning of water management facilities, long-term and trouble-free operation of water treatment equipment, preservation of the health of water consumers and minimizing the impact on reservoirs, natural water sources (underground and surface) is proposed.

Keywords:
water safety, modules of the aquatic ecosystem, resource conservation, nature similarity, resource substitution, safety factors
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References

1. Klimenko O.V. Metodologicheskie osnovy obespecheniya ekologicheskoj bezopasnosti vodohozyajstvennyh ob"ektov v sostave PTS «P.S. – V.O. – N» // Problemy ohrany proizvodstvennoj i okruzhayushchej sredy: sb. materialov i nauch. trudov inzhenerov-ekologov. Soyuz predpriyatij i organizacij, obespechivayushchih racional'noe ispol'zovanie prirodnyh resursov i zashchitu okruzhayushchej sredy «Ekosfera»; pod red. V.N. Azarova. Volgograd: VolgGTU, 2018. Vyp. 8. 32 s.

2. Kondaurova I.A. Analiz zarubezhnyh tendencij v sfere ohrany truda // Vesti Avtomobil'no-dorozhnogo instituta. 2021. № 2 (37). S. 97–104.

3. Iliev A.G., Goncharova A.G. Analiz metodov sovershenstvovaniya risk-orientirovannogo podhoda k upravleniyu ohranoj truda pri obespechenii proizvodstvennoj bezopasnosti // Naukosfera. 2021. № 5–2. S. 93–100.

4. Spravochnik perspektivnyh tekhnologij vodopodgotovki. URL: https://raww.ru/assets/modckeditor/default/0/spravochnik-vodopodgotovki.pdf (data obrashcheniya: 24.12.2023).

5. Samburskij G.A., Nefedova E.D. Podhody k ocenke riskov i vyboru tekhnologij vodopodgotovki dlya obespecheniya potrebitelej kachestvennoj pit'evoj vodoj // Vodoochistka. Vodopodgotovka. Vodosnabzhenie. 2020. № 2 (146). S. 48–56.

6. Ovchinnikova T.I., Potockij E.P., Firsova V.M. Risk-orientirovannyj podhod pri ocenke opasnostej v gornoj promyshlennosti // Gornyj informacionno-analiticheskij byulleten' (nauchno-tekhnicheskij zhurnal). 2021. № 2–1. S. 199–208.

7. Lilje J., Mosler H.J. Socio-psychological determinants for safe drinking water // Journal of Water, Sanitation and Hygiene for Development. URL: https://iwaponline.com/washdev/article-pdf/7/1/13/386126/washdev0070013.pdf (data obrashcheniya: 08.12.2023).

8. WaterMarketsReport // AITHER. 2019. URL: https://www.aither.com.au/2019-water-markets-report/ (data obrashcheniya: 08.12.2023).

9. WHO Guidelines for Drinking-water Quality. Guidelines for ensuring the quality of drinking water, fourth edition. World health organization, 2017. 628 c.

10. Overview of the main disinfection processes for wastewater and drinking water treatment plants / A. Abbà [et al.] // Sustainability. 2018. Vol. 10 (1). P. 86.

11. Sokolov L.I., Silinskij V.A., Sokolov K.L. Principy prirodopodobiya i resursosberezheniya v vodopodgotovke i vodoochistke: Ekologiya i promyshlennost' Rossii. M., 2023. № 7 (9). S. 16–21. DOI:https://doi.org/10.18412/1816-0395-2023-9-16-21.

12. Spravochnik perspektivnyh tekhnologij vodopodgotovki. URL: https://raww.ru/assets/modckeditor/default/0/spravochnik-vodopodgotovki.pdf (data obrashcheniya: 20.11.2023).

13. Pasport Nacional'nogo proekta «Ekologiya». URL: https://www.mnr.gov.ru/activity/directions/natsionalnyy_proekt_ekologiya/ (data obrashcheniya: 20.11.2023).

14. Un Economic and Social Commission for Asia and the Pacific (UNESCAP) 2021. URL: https://www.unescap.org/our-work/social-development/social-protection (data obrashcheniya: 23.11.2023).

15. Sokolov L., Silinsky V., Kolobova S. Sodium Hypochlorite Production from Salted Groundwater // Journal of Applied Chemical Science International. 2021. T. 12 (1). P. 17–26. URL: https://www.ikprress.org/index.php/JACSI/article/view/6476 (data obrashcheniya: 15.03.2024).

16. Sokolov L., Silinsky V., Kolobova S. Application of water treatment sludge for obtaining fertile soil // International Conference on Efficient Production and Processing (ICEPP-2021). 2021. Vol. 247. DOI:https://doi.org/10.1051/e3sconf/202124701072.

17. Sokolov L.I., Silinskij V.A. Obezzarazhivanie stokov cellyulozno-bumazhnogo proizvodstva reagentom iz mineral'nyh podzemnyh vod // Vestnik Volgogradskogo gosudarstvennogo arhitekturno-stroitel'nogo universiteta. 2022. Vyp. 87 (2). S. 123–135.

18. Sokolov L.I., Silinskij V.A. Vliyanie hlorsoderzhashchego reagenta, poluchennogo iz podzemnyh mineralizovannyh vod, na biologicheskoe i himicheskoe potreblenie kisloroda ochishchaemyh stochnyh vod // Sistemnye tekhnologii. 2023. № (3) 48. DOI:https://doi.org/10.55287/22275398-2023-3-161.

19. Sposob polucheniya elektroliticheskogo gipohlorita natriya: pat. 2722175 Ros. Federaciya: MPK C25B 1/26 / S.V. Kolobova, E.A. Mezeneva, L.I. Sokolov, V.A. Silinskij; zayavitel' i patentoobladatel' Volog. gos. un-t. – № 2019139636; zayavl. 05.12.2019; opubl. 28.05.2020, Byul. № 16.

20. Mezeneva E.A., Kolobova S.V., Silinskij V.A. Ekologicheskaya bezopasnost' pri ispol'zovanii gipohlorita natriya na ob"ektah kommunal'nogo hozyajstva // Bezopasnost' zhiznedeyatel'nosti glazami molodezhi: sb. materialov V Vseros. studencheskoj konf. (s mezhdunar.uchastiem): v 2-h t. T. 2 / pod red. A.I. Sidorova. Chelyabinsk, 2019. S. 58–62.

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