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Research of Modern Technologies of Wastewater Treatment of Food Products Combined with Ozonation and Hydrogen Peroxide
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 925Use of Natural Zeolite to Improve Quality and...

Use of Natural Zeolite to Improve Quality and Environmental Safety of Natural Surface Waters and Waste Surface Waters

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Abstract:

Natural zeolites are materials which, due to the peculiarities of their crystal structure and high adsorption and ion exchange properties, have wide prospects for use in technologies of adsorption purification of aquatic environments. The paper presents the results of laboratory research in dynamic and static conditions of sorption properties of natural zeolite, which is currently used for purification of natural water from suspended solids in industrial water treatment plants. The sorption capacity of different fractions of this zeolite to ammonium nitrogen, fluorides and petroleum products has been established.

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Periodical:

Key Engineering Materials (Volume 925)

Pages:

135-141

DOI:

https://doi.org/10.4028/p-uk5c75

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Online since:

July 2022

Authors:

Valentyna Iurchenko*, Oksana Melnikova

Keywords:

Ammonium Nitrogen, Fluorides, Natural Waters, Natural Zeolite Sorption Capacity, Petroleum Products, Surface Wastewater, Treatment

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© 2022 Trans Tech Publications Ltd. All Rights Reserved

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[1] E. Bazrafshan, P. Amirian, A.H. Mahvi, A. Ansari-Moghaddam, Application of adsorption process for phenolic compounds removal from aqueous environments: a systematic review. Global Nest Journal, 18(1) (2018) 146–163.

DOI: 10.30955/gnj.001709

[2] M. Malovanyy, O. Palamarchuk, I. Trach, H. Petruk, H. Sakalova, Kh. Soloviy, T. Vasylinych, I. Tymchuk, N. Vronska, Adsorption Extraction of Chromium Ions (III) with the Help of Bentonite Clays. Journal of Ecological Engineering, 21(7) (2020) 178-185.

DOI: 10.12911/22998993/125545

[3] H. Sakalova, M. Malovanyy, T. Vasylinych, R. Kryklyvyi, The Research of Ammonium Concentrations in City Stocks and Further Sedimentation of Ion-Exchange Concentrate. Journal of Ecological Engineering, 20(1) (2019) 158-164.

DOI: 10.12911/22998993/93944

[4] L. Melnyk, O. Bessarab, S. Matko, M. Malovanyy, Аdsorption of heavy metals ions from liquid media by palygorskite. Chemistry & Chemical Technology, 9(4) (2015) 467-470.

DOI: 10.23939/chcht09.04.467

[5] М. Malyovanyy, G. Sakalova, N. Chornomaz, O. Nahurskyy, Water sorption purification from ammonium pollution. Chemistry and chemical technology, 7(3) (2013) 355-358.

DOI: 10.23939/chcht07.03.355

[6] M. Malovanyy, K. Petrushka, I. Petrushka, Improvement of Adsorption-Ion-Exchange Processes for Waste and Mine Water Purification. Chemistry & Chemical Technology, 13(3) (2019) 372–376.

DOI: 10.23939/chcht13.03.372

[7] I. B. Zasidko, M. S. Polutrenko, O. M. Mandryk, Use of zeolite for cleaning of natural water and effluents of communal enterprises. Scientific Bulletin of UNFU, 27(5) (2017) 63–66.

DOI: 10.15421/40270513

[8] Larysa Mykhailova, Valentina Iurchenko, Thomas Fischer, Deposition of petroleum hydrocarbons with sediment trapped in snow in roadside areasю. Journal of Environmental Engineering and Landscape Management, (2014) 1–9.

DOI: 10.3846/16486897.2014.889698

[9] E. Ugnenko, V. Yurchenko, N. Sorochuk, О. Melnikovа, G. Viselga, Study of Treatment Efficiency of Wastewater Collected from the Surface of Roads by Natural Zeolite. TRANSBUD-2019 IOP Publishing IOP Conf. Series: Materials Science and Engineering, 708 (2019) 012035.

DOI: 10.1088/1757-899x/708/1/012035

[10] V. Hvat, M. Manuylov, V. Medvedev, Ispolzovanie poverhnostnogo stoka v sistemah promvodosnabzheniya pri ustroystve malostochnyih proizvodstv, Materialyi 3-y Respublikanskoy nauchno-prakticheskoy konferentsii «Zamknutyie tehnologicheskie sistemyi vodoispolzovaniya i utilizatsiya osadkov vod v promyishlennosti», (1990) 103-105 [in Russian].

[11] Rekomendatsii po raschetu sistem sbora, otvedeniya i ochistki poverhnostnogo stoka s selitebnyih territoriy, ploschadok predpriyatiy i opredeleniyu usloviy vyipuska ego v vodnyie ob'ektyi. [Elektronnyiy resurs] /Rezhim dostupa: http://www.gostrf.com/Basesdoc/50/50785/index.htm.

[12] Rekomendatsiy zabezpechennya efektivnogo vidvedennya miskih zlivovih stokiv ta viznachennya parametriv ochisnih sporud. Posibnik do DBN. Zatverdzheniy: Nakazom Ministerstva z pitan zhitlovo-komunalnogo gospodarstva Ukrayini vid 14.10.08, № 302.

[13] Ulashtuvannya poverhnevogo vodovidvedennya na teritoriyah mist i selisch SOU ZhKG 41.00-35077234. 0018:2009. Priynyato ta nadano chinnosti: nakaz Ministerstva z pitan zhitlovo-komunalnogo gospodarstva Ukrayini [in Ukraine].

[14] N. Espejo-Herrera, K. Cantor, N. Malats, D. Silverman, A. Tardón, R. García-Closas, C. Serra, M. Kogevinas, C. Villanueva, Nitrate in drinking water and bladder cancer risk in Spain. Environmental Research, 137 (2015) 299–307.

DOI: 10.1016/j.envres.2014.10.034

[15] Nitrate and Nitrite in Drinking: A Toxicological Review, Water California Environmental Protection Agency. Oakland, CA, USA, 2011, p.139–145.

[16] M. Sprynskyy, M. Lebedynets, A. Terzyk and al., Ammonium sorption from aqueous solutions by the natural zeolite Transcarpathian clinoptilolite studied under dynamic conditions. J. of Colloid and Interface Science, 284 (2005) 408-415.

DOI: 10.1016/j.jcis.2004.10.058

[17] A. Ryizhakov, Kineticheskie harakteristiki transformatsii azotsoderzhaschih soedineniy v prirodnoy vode. Ekologicheskaya himiya, 21(2) (2012) 117–124. [in Russian].

[18] V. Iurchenko, M. Radionov, P. Ivanin, O. Melnikova, Influence of Deep-Treated Wastewater Discharge on Nitrification Activity in a Natural Reservoirs. Ecological engineering: Scientific journal, 21(8) (2020) 146–155.

DOI: 10.12911/22998993/126984

[19] Fluoride. Dietary Reference Intakes: Calcium, Phosphorus, Magnesium, Vitamin D, and Fluoride. Institute of Medicine. Washington D.C.: National Academy Press. 1997, pp.288-313.

DOI: 10.17226/5776

[20] DSanPIN 2.2.4-171-10 Gigienichni vimogi do vodi pitnoyi, priznachenoyi dlya spozhivannya lyudinoyu,. Zareestrovano v Ministerstvi yustitsiyi Ukrayini i lipnya 2010 r. po N 452/17747. -39 s. [in Ukraine].

[21] A. Givlyud, V. Sabadash, Ya. Gumnitskiy, Obgruntuvannya mozhlivosti vikoristannya prirodnogo tseolitu dlya ochischennya stichnih vod molokozavodiv. Visnik Lvivskogo derzhavnogo universitetu bezpeki zhittediyalnosti, 12 (2015) 185-190. [in Ukraine].

[22] List of methods for performing measurements (determinations) of the composition and properties of samples of environmental objects, emissions, wastes and discharges provisionally allowed for use by the State Inspectorate of Ukraine, approved by the Head of the State Environmental Inspectorate of Ukraine - Chief State Inspector of Ukraine for Environmental Protection on 01.03.2013 [in Ukraine].

DOI: 10.24195/2414-9616.2019.3.3