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Liu D., Edraki M., Malekizadeh A., Schenk P. M., Berry L. (2019). Introducing the hydrate gel membrane technology for filtration of mine tailings. Minerals Engineering, 135, 1–8.LiuD.EdrakiM.MalekizadehA.SchenkP. M.BerryL.2019Introducing the hydrate gel membrane technology for filtration of mine tailings13518Search in Google Scholar
Haan T. Y., Shah M., Chun H. K., Mohammad A. W. (2018). A study on membrane technology for surface water treatment: Synthesis, characterization and performance test. Membrane Water Treatment, 9(2), 69–77.HaanT. Y.ShahM.ChunH. K.MohammadA. W.2018A study on membrane technology for surface water treatment: Synthesis, characterization and performance test926977Search in Google Scholar
Trus, I., Radovenchyk, I., Halysh, V., Skiba, M., Vasylenko, I., Vorobyova, V., Hlushko, O., and Sirenko, L. (2019). Innovative Approach in Creation of Integrated Technology of Desalination of Mineralized Water. Journal of Ecological Engineering, 20(8), 107–113.TrusI.RadovenchykI.HalyshV.SkibaM.VasylenkoI.VorobyovaV.HlushkoO.SirenkoL.2019Innovative Approach in Creation of Integrated Technology of Desalination of Mineralized Water208107113Search in Google Scholar
Trus I., Gomelya M., Tverdokhlib M., Halysh V., Radovenchyk I., Benatov D. (2022). Purification of Mine Waters Using Lime and Aluminum Hydroxochloride. Ecological Engineering & Environmental Technology, 3(5), 169–176.TrusI.GomelyaM.TverdokhlibM.HalyshV.RadovenchykI.BenatovD.2022Purification of Mine Waters Using Lime and Aluminum Hydroxochloride35169176Search in Google Scholar
Trus I., Gomelya M. (2021). Desalination of mineralized waters using reagent methods. Journal of Chemistry and Technologies, 29(3), 417–424.TrusI.GomelyaM.2021Desalination of mineralized waters using reagent methods293417424Search in Google Scholar
Kim J. E., Phuntsho S., Chekli L., Choi J. Y., Shon H. K. (2018). Environmental and economic assessment of hybrid FO-RO/NF system with selected inorganic draw solutes for the treatment of mine impaired water. Desalination, 429, 96–104.KimJ. E.PhuntshoS.ChekliL.ChoiJ. Y.ShonH. K.2018Environmental and economic assessment of hybrid FO-RO/NF system with selected inorganic draw solutes for the treatment of mine impaired water42996104Search in Google Scholar
Gomelya M., Hrabitchenko V., Trokhymenko A., Shabliy T. (2016). Research into ion exchange softening of highly mineralized waters. Easten-Europen Journal of Enterprise Technologies, 4/10(82), 4–9.GomelyaM.HrabitchenkoV.TrokhymenkoA.ShabliyT.2016Research into ion exchange softening of highly mineralized waters4/108249Search in Google Scholar
Kinnunen P., Kyllönen H., Kaartinen T., Mäkinen J., Heikkinen J., Miettinen V. (2018). Sulphate removal from mine water with chemical, biological and membrane technologies. Water Science and Technology, 1, 194–205.KinnunenP.KyllönenH.KaartinenT.MäkinenJ.HeikkinenJ.MiettinenV.2018Sulphate removal from mine water with chemical, biological and membrane technologies1194205Search in Google Scholar
Akhter M., Habib G., and Qamar S. (2018). Application of Electrodialysis in Waste Water Treatment and Impact of Fouling on Process Performance. Journal of Membrane of Science&Technology, 8(2), 1–8.AkhterM.HabibG.QamarS.2018Application of Electrodialysis in Waste Water Treatment and Impact of Fouling on Process Performance8218Search in Google Scholar
Trus, I. M., Hrabitchenko, V. M., Homela, M. D. (2013). Otymannia sirkhanoi kysloty pry elektrokhimichnii pererobtsi eluiativ, shcho mistiat sylfaty [Obtaining sulfuric acid during the electrochemical processing of eluates containing sulfates]. Vostochno-Evropeiskii zhurnal peredovykh tekhnologii, 4/6(64), 10–13.TrusI. M.HrabitchenkoV. M.HomelaM. D.2013Otymannia sirkhanoi kysloty pry elektrokhimichnii pererobtsi eluiativ, shcho mistiat sylfaty [Obtaining sulfuric acid during the electrochemical processing of eluates containing sulfates]4/6641013Search in Google Scholar
Trus, I. M., Homela, M. D., Radovenchyk, Ya. V. (2013). Sposib kontsentruvannia rozchyniv luhu pry elektrokhimichnii pererobtsi eluiativ, scho mistiat soli natriiu [Method of concentration of alkaline solutions during the electrochemical processing of eluates containing sodium salts]. Vostochno-Evropeiskii zhurnal peredovykh tekhnologii, 5/6(65), 20–23. (In Ukraine).TrusI. M.HomelaM. D.RadovenchykYa. V.2013Sposib kontsentruvannia rozchyniv luhu pry elektrokhimichnii pererobtsi eluiativ, scho mistiat soli natriiu [Method of concentration of alkaline solutions during the electrochemical processing of eluates containing sodium salts]5/6652023(In Ukraine).Search in Google Scholar
Pylypenko, A. T., Goronovsky, I. T., & Grebenyuk, V. D. (1985). Kompleksnaya pererabotka shakhtnikh vod [Integrated processing of mine waters]. Kyiv: Tekhnika, 183. (In Russian).PylypenkoA. T.GoronovskyI. T.GrebenyukV. D.1985KyivTekhnika183(In Russian).Search in Google Scholar
Melnik, L. O. (2016). Naukovi zasady vydalennia toksychnykh mikrokomponentiv manganu, boru, arsenu v protsesakh membranoho oprisnennia [Scientific principles of removing toxic microcomponents of manganese, boron, and arsenic in membrane desalination processes]. Doctoral dissertation, 21.06.01, Kyiv, National Academy of Sciences of Ukraine, A. V. Dumansky Institute of Colloid Chemistry and Water Chemistry, 320. (In Ukraine).MelnikL. O.2016Doctoral dissertation, 21.06.01,KyivNational Academy of Sciences of Ukraine, A. V. Dumansky Institute of Colloid Chemistry and Water Chemistry320(In Ukraine).Search in Google Scholar
Nabyvanets, B. Y., Osadchiy, V. I., Osadcha, N. M., & Nabyvanets, Y. B. (2007). Analytychna khimiya poverkhnevykh vod: monohrafiya [Analytical chemistry of surface waters: monograph]. Kyiv: Naukova dumka, 455. (In Ukraine).NabyvanetsB. Y.OsadchiyV. I.OsadchaN. M.NabyvanetsY. B.2007KyivNaukova dumka455(In Ukraine).Search in Google Scholar
Lurie, Y. Y. (1989). Spravochnik po analiticheskoy khimii [Handbook of analytical chemistry]. Moscow: Khimiya, 448. (In Russian).LurieY. Y.1989MoscowKhimiya448(In Russian).Search in Google Scholar
Pisarska, B., & Dylevski, R. (2005). Analiz usloviy polucheniya H2SO4 i NaOH iz rastvorov sulfata natriya metodom elektrodializa [Analysis of conditions for obtaining H2SO4 and NaOH from sodium sulfate solutions by electrodialysis method]. Zhurnal prikladnoy khimii, 78(8), 1311–1316. (In Russian).PisarskaB.DylevskiR.2005Analiz usloviy polucheniya H2SO4 i NaOH iz rastvorov sulfata natriya metodom elektrodializa [Analysis of conditions for obtaining H2SO4 and NaOH from sodium sulfate solutions by electrodialysis method]78813111316(In Russian).Search in Google Scholar