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The article states that the receipt of insufficiently treated wastewater into water bodies is largely caused by the use of outdated water treatment technologies, the deterioration of the technological equipment, late adjustment of the technological regime, and effective methods of removing phosphates from water in decentralized water supply. In this regard, it is necessary to implement comprehensive measures to prevent and reduce the deterioration of water quality, to develop the effective methods of removing the phosphorus-containing substances from wastewater, to conduct constant monitoring (through automated observation posts) of surface water quality with timely management decisions. The adsorption properties of granular composite materials based on glauconite were investigated The composite granular glauconite materials with sunflower husk adsorbent have been found to be most effective. The efficiency of wastewater treatment was 78%.
Czasopismo
Rocznik
Tom
Strony
147--154
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
- Faculty of Natural Sciences, Kremenchuk Mykhailo Ostrohradskiy National University, Pershotravneva Str. 20, Kremenchuk, 39600, Ukraine
autor
- Faculty of Natural Sciences, Kremenchuk Mykhailo Ostrohradskiy National University, Pershotravneva Str. 20, Kremenchuk, 39600, Ukraine
autor
- Faculty of Natural Sciences, Kremenchuk Mykhailo Ostrohradskiy National University, Pershotravneva Str. 20, Kremenchuk, 39600, Ukraine
autor
- Faculty of Natural Sciences, Kremenchuk Mykhailo Ostrohradskiy National University, Pershotravneva Str. 20, Kremenchuk, 39600, Ukraine
Bibliografia
- 1. Apostoluk S.O., Dzhigirey V.S., Sokolovsky I.A. 2012. Promyslova ekolohiia. Znannya, Kyiv. (in Ukrainian).
- 2. Arkhipova T.F., Osadchuk A.Yu. 2013. Prykladne materialoznavstvo. Vinnytsia, VETU (in Ukrainian).
- 3. Belyaev A.V. et al. 2011. Oborudovanie dlya fizikomehanicheskojobrabotki materialov. Perm, Perm. gos. tehn. un-t. (in Russian).
- 4. Bezdeneznych L. et al. 2017. Methods of salt content stabilization in circulating water supply systems. Jornal Chemical Technology, 11(2), 242–246.
- 5. Bezdyenyezhnih L.A.. et al. 2012. Vplyv hranulometrychnoho skladu nanostrukturovanoho adsorbentu na efektyvnist ochystky stichnykh vod vid naftoproduktiv, Visnyk KrNU, 2(73), 147–149. (in Ukrainian).
- 6. Bezdyenyezhnih L.A. etal. 2016. Monitoryng staniv ekologichnoyi nebezpeky, sho formuyetsyau tehnogenno navantazhenomu kompleksi Visnyk KrNU, 5(100), 83–88. (in Ukrainian).
- 7. Derzhahentstvo vodnykh resursiv rozpovilo, chomu «tsvite» Dnipro, ta shcho robyty, shchob «tsvitinnia» zmenshylosia, 2018. URL :https://pl.oblast.online/news/derzhagentstvo-vodnih-resursiv-rozpovilo-chomu-tsvite-dnipro-ta-shho-robiti-shhobtsvitinnya-zmenshilosya (in Ukrainian).
- 8. Ekolohichnyi pasport Poltavskoi oblasti, 2018. Poltavska oblasna derzhavna administratsiia. Departament ekolohii ta pryrodnykh resursiv. Poltava (in Ukrainian).
- 9. Kharlamova E.V., Shmandiǐ V.M., Galchuk S.V. 2012. Environmental security in the region with heavy exposure to sources of man-made earthquakes. Gigiena i Sanitariya 5, 52–53.
- 10. Kormosh E.V. et al. 2011. Khymyko-myneralohycheskye aspekty vozmozhnosty yspolzovanyia hlyn belhorodskoi oblasty v razrabotke sorbentov dlia ochystky stochnykh vod. Fundamentalnye yssledovanyia. 8(1), 131–136. (in Russian).
- 11. Ekolohichnyi pasport Poltavskoi oblasti, 2018. Poltavska oblasna derzhavna administratsiia. Departament ekolohii ta pryrodnykh resursiv. Poltava (in Ukrainian).
- 12. Levchenko M.L. et al. 2011. Glaukonitovyje peski dlya ekologicheskoj zashity i vosstanovleniya prirodnyh svojstv gruntov i vodnoj sredy.Burenie i neft, 4, 56–57. (in Russian).
- 13. Malovanyy M., Moroz O., Hnatush S., Maslovska O., Zhuk V., Petrushka I., Nykyforov V., Sereda A. 2019. PerspectiveTechnologiesof the Treatment of the Wastewaters with High Content of Organic Pollutants and Ammoniacal Nitrogen. Journal of Ecological Engineering, 20(2), 8–15.
- 14. Malovanyy M., Nikiforov V., Kharlamova O., Synelnikov O. 2016. Production of renewable energy resources via complex treatment of cyanobacteria biomass. Chemistry & Chemical Technology, 10(2), 251–254.
- 15. Malovanyy M., Zhuk V., Sliusar V., Sereda A. 2018. Two stage treatment of solid waste leachates in aerated lagoons and at municipal wastewater treatment plants. Eastern-European Journal of Enterprise Technologies, 1(10), 23–30.
- 16. Pavlynova Y.Y., Bazhenov V.Y., Hubyi Y.H. 2015. Vodosnabzhenie i vodootvedenie. Yurait. Moskva. (in Russian).
- 17. Recruitment of water resources, 2017. State Agency for Water Resources of Ukraine. URL:http://www.poltavavodgosp.gov.ua/index.php?id=23
- 18. Regional support for the camp of a natural natural remedy in the Poltava region in 2016 in the region of Poltava, 2017. Poltava oblast state administration. Department of Ecology and Natural Resources. Poltava.
- 19. Sakalova H., Malovanyy M., Vasylinych T., Kryklyvyi R. 2019. The Research of Ammonium Concentrations in City Stocks and Further Sedimentation of Ion-Exchange Concentrate. Journal of Ecological Engineering, 20(1), 158–164.
- 20. Shmandii V.M., Bezdieniezhnykh L.A., Kharlamova E.V. 2012. Іspolzovanie adsorbentov, poluchennykh iz otkhodov, dlia uluchshieniia sostoianiia sriedy obitaniia chielovieka. Hihiiena i sanitariia, 6, 44–2.(in Russian).
- 21. Shmandіy V.M., Kharlamova O.V., Rigas T.E. 2018. Ecological safety performance in the Кremenchuk industrial region under action of induced earthquakes. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 5(167), 115–121.
- 22. Tulaydan Y., Malovanyy M., Kochubei V., Sakalova H. 2017. Treatment of high-strength wastewater from ammonium and phosphate ions with the obtaining of struvite. Chemistry & Chemical Technology, 11(4), 463–468.
- 23. Shmandiy V.M. et al. 2018. Composite Granulated Adsorbents Based on Chitosan and Agricultural Processing Waste for Sewage Treatment. International Jornal of Engineering Tehnology. 7(4.3), 320–324.
- 24. Vezentsev A.Y. et al. 2011. Adsorbtsyonnye svoistva produktov obohashchenyia pryrodnykh montmoryllonytsoderzhashchykh hlyn. Nauchnye vedomosty BelHU. Seryia: Estestvennye nauky. 9, 103–109. (in Russian).
- 25. Zelenko Y., Malovanyy M., Tarasova L. 2019. Оptimization of heat-and-power plants water purification. Chemistry & Chemical Technology, 13(2), 18–223.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-05678d83-912c-4e76-8fde-2842d994d634