Investigation of Clinoptylolite Ion Exchange Capacity Relative to Copper and Zinc Ions in Conditions of Ideal Intermixing Mode

[1] D.V. Kulikova, O.S. Kovrov, Іmprovement of manufacturing scheme of wastewater treatment for galvanic shops of coal machine building enterprises. Ecological Safety and Balanced Use of Resources, 2(22) (2021) 97-106.

Google Scholar

[2] A. Zapolskyy, N. Mishkova-Klymenko, I. Astrelin, M. Bryk, Fizyko-Khimichni Osnovy Tekhnolohii Ochyshchennia Stichnykh Vod, Libra, Kyiv,(2000).

Google Scholar

[3] I.M. Chub, Masoobminni protsesy vodopidhotovky, KhNUMH im. O.M. Beketova, Kharkiv, (2020).

Google Scholar

[4] O.I. Kuntyi, Halvanotekhnika, Vydavnytstvo Nats. Un-tu «Lvivska politekhnika», Lviv, (2004).

Google Scholar

[5] T.V. Klymenko, Ochystka stochnykh vod ot yonov tiazhelykh metallov. Sovremennye nauchnye іssledovanyia і іnnovatsіі, 11 (2013).

Google Scholar

[6] 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

Google Scholar

[7] V. Iurchenko, M. Radionov, O. Melnikova, O. Rachkovskiy, L. Mykhailova, Influence on Environmental Safety of the Drinking Water of Nitrification in Water Reservoir Being a Source of Water Supply and Filter Filling, Materials in Water Treatment Facilities. Materials Science Forum, (1006 MSF) (2020) 187-193.

DOI: 10.4028/www.scientific.net/msf.1006.187

Google Scholar

[8] M. Malovanyy, H. Sakalova, T. Vasylinycz, O. Palamarchuk, J. Semchuk, Treatment of effluents from ions of heavy metals as display of environmentally responsible activity of modern businessman. Journal of Ecological Engineering, 20(4) (2019) 167-176.

DOI: 10.12911/22998993/102841

Google Scholar

[9] 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

Google Scholar

[10] S.S. Milovych, V.I. Homonai, A. Kovalchikova, Khimichnyi sklad i krystalichna struktura pryrodnoho klynoptylolitu Sokyrnytskoho rodovyshcha ta yoho modyfikovanykh form. Nauk. visnyk Uzhhorod. un-tu (Seriia Khimiia), 2(42) (2019) 73-80.

Google Scholar

[11] Yu.Iu. Lure, Unyfytsyrovannye metody analyza vod, Khіmіia, Moskva, (1973).

Google Scholar

[12] V.B. Aleskovskyi, V.V. Bardyn, M.Y. Bulatov, Fyzyko-khymycheskye metody analyza. Praktycheskoe rukovodstvo, Khіmіia, Lenynhrad, (1988).

Google Scholar

[13] D. Brek, Tseolytovyіe molekuliarnyіe syta, Mir, Moskva, (1976).

Google Scholar

[14] M.D. Homelia, V.P. Ivanova, V.S. Kamaiev, Yu.A. Marushchak, Vyznachennia sorbtsiinoi zdatnosti ionitu pry vyluchenni ioniv midi z vody. Problemy vodopostachannia, vodovidvedennia ta hidravliky, 28 (2017) 84-91.

Google Scholar

[15] A.S. Seheda, Analitychna khimiia. Kilkisnyi analiz, Fitosotsiotsentr, Kyiv, (2006).

Google Scholar

[16] H.V. Sakalova, T.M. Vasylinych, Doslidzhennia efektyvnosti ochyshchennia stichnykh vod vid ioniv vazhkykh metaliv z vykorystanniam pryrodnykh adsorbentiv, TOV «Tvory»,Vinnytsia, (2019).

Google Scholar