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Tytuł artykułu

Study of the Process of Electro Evolution of Copper Ions from Waste Regeneration Solutions

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article presents the results of the study on the process of copper electroevolution from the regeneration solutions in one- and two-chamber electrolyzers at different concentrations of sulfuric acid and the solutions of copper chlorides at different concentrations of hydrochloric acid – in a three-chamber electrolyzer. The conditions of electrochemical recovery of heavy metals from acidic and saline solutions were determined. It was shown that the most effective recovery of heavy metal cations from hydrochloric acid solutions occurs in three-chamber electrolyzers. On the basis of the results obtained, a technological scheme of a local plant for treatment of washing water of galvanic industries was proposed.
Rocznik
Strony
29--38
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
  • Admiral Makarov National University of Shipbuilding, 54025, Heroiv Ukrainy avе., 9, Mykolaiv, Ukraine
  • Admiral Makarov National University of Shipbuilding, 54025, Heroiv Ukrainy avе., 9, Mykolaiv, Ukraine
  • National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», 03056, Peremohy ave., 37, Kyiv, Ukraine
autor
  • National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», 03056, Peremohy ave., 37, Kyiv, Ukraine
  • Admiral Makarov National University of Shipbuilding, 54025, Heroiv Ukrainy avе., 9, Mykolaiv, Ukraine
Bibliografia
  • 1. Ayala-Bribiesca Erik, Pоurсеllу Gerald, Bazinet Laurent. 2007. Nature identification and morphology characterization of anion-exchange membrane fouling during conventional electrodialysis. J. Colloid and Interface Sci., 308 (1), 182–190.
  • 2. Bairachnyi B.I., Borsuk O.M., Kovalenko Yu.I., Bairachny V.B. 2012. Sposib vyluchennia ioniv metaliv pidhrupy midi z tekhnohennykh vidkhodiv. Patenty i izobreteniya: Patenty, 74667. (in Ukrainian)
  • 3. Chkhenadze N. V., Kurtskhalia Ts. S. 2004. K opredeleniyu dopustimoy velichiny kaltsievoy zhestkosti pri elektrodialize mineralizovannykh vod s odnovremennym kontsentrirovaniem. GEN: Georg. Eng. News., 4, 118–122. (in Russian)
  • 4. Dzhalilov M.F. 1987. Povyshenie effektivnosti Hkationirovaniya vody. Khimiya i tekhnologiya vody, 9 (3), 252–255. (in Russian)
  • 5. Faiziiev G.K., Nasirov A.M., Ibragimov K.D. and oth. I.c. USSR, IPC В 01 J 49/00. Methods of regeneration of the H-cation exchange filter of the first stage of chemical desalination of water. No. 4623872/26; applied 15.12.90; publ. 30.08.91., Bul. No. 32. (in Russian)
  • 6. Feyziev G.K. 1988. Vysokoefektivnye metody umyagcheniya i opresneniya. Energoatomizdat, Moscow. (in Russian)
  • 7. Fylypchuk V.L., Shatalov O.S. 2014. Devices for electrochemical wastewater treatment and safety of its operation. Komunalne Hospodarstvo Mist. Ser. Tekhnichni Nauky Ta Arkhitektury, 114, 147–150. (in Ukrainian)
  • 8. Goltvianytska O.V., Shabliy T.O., Gomelya M.D. 2011. Getting the sulfuric acid and alkali solutions of sodium sulfate by electrodialysis method. Eastern-European Journal of Enterprise Technologies, 3/6(51), 18–22.
  • 9. Goncharuk V.V., Chebotareva R.D., Bagriy V.A., Bashtan S.Yu., Remez S.V. 2005. Umyagchenie vody v elektrolizere s keramicheskoy membranoy. Khimiya i tekhnologiya vody, 27 (5), 460–470. (in Russian)
  • 10. Grytsenko O.M., Gaiduk A.V., Bedlovska Kh.Ya., Gaidos I. 2016. Strukturni kharakterystyky khimichno vidnovlenoho nikeliu yak napovniuvacha polimernykh hidroheliv. Visnyk natsionalnoho universytetu «Lvivska politekhnika». Seriia «Khimiia, tekhnolohiia rechovyn ta yikh zastosuvannia», 351–357. (in Ukrainian)
  • 11. Hodges Alastair McJоdoe, Osvath Peter. Pat. 738488 Australia, IPC6 С02 F 001/42, В 01 J 049/00. Purification of a liquid stream. USF Filtration and Separations Group Inc. No. 199873247; applied 08.05.1998; publ. 20.09.2001.
  • 12. Ivakina Ye.I., Zubets N.N., Lavrova Z.D. and oth. 1976. Pererabotka regenerata anionita EDE-10P v kislotu i shcheloch na opytnoy polupromyshlennoy elektroliznoy ustanovke. Teoriya i praktika sorbtsionnykh protsessov, 11, 92–95. (in Russian)
  • 13. Melnyk L., Bessarab O., Matko S., Malyovanyy M. 2015. Аdsorption of heavy metals ions from liquid media by palygorskite. Chemistry & Chemical Technology, 9 (4), 467–470.
  • 14. Mulder M. 1996. Basic principles of membrane technology. Springer Netherlands.
  • 15. Obertas I.A. 2016. Some Theoretical Conditions for the Anodic Dissolution of Metal for the Filtration Method through the Materials with Redox Properties for Removal of Residual Aluminium of Drinking Water. Scientific Bulletin of UNFU of Ukraine, 26 (1), 264–267. (in Ukrainian)
  • 16. Rohm and Haas Co., Tasaki Shintaro. Pat. 6060526 USA, IPC7 B 01 J 43/00. Mixed bed ion exchange resin system and methods of preparation. No. 09/226824; applied 07.01.99; publ. 09.05.00.
  • 17. Shabliy T.A. 2010. Pererabotka otrabotannykh shchelochnykh i neytralnykh rastvorov ionoobmennogo umyagcheniya vody metodom eletroliza. Energotekhnologii i resursosberezhenie, 6. 63–66. (in Russian)
  • 18. Shabliy T.O., Gomelia M.D., Panov E.M. 2010. Elekrokhimichna pererobka vidpratsovanykh rozchyniv, shcho utvoriuiutsia pry reheneratsii kationitiv. Ekologiya i promyshlennost, 2, 33–38.
  • 19. Shabliy T.O., Gomelia M.D., Panov E.M. 2010. Vykorystannia elektrolizu v protsesi pererobky vidpratsovanykh reheneratsiinykh rozchyniv. Sbornik trudov XVIII Mezhdunarodnoy nauchnoprakticheskoy konferentsii «Ekologiya, energoi resursosberezhenie, okhrana okruzhayushchey sredy i zdorove cheloveka, utilizatsiya otkhodov», Kharkov: Energostal, 181–184. (in Ukrainian)
  • 20. Shabliy T., Goltvianytskaya E., Shabliy N. 2011. Electrochemical processing of regeneration solutions from ion-exchange treatment of water with production of acid and alkalis. Swedish – Polish – Ukrainian cooperation project “Future urban sanitation to meet new requirements for water quality in the Baltic Sea region”, Cracow, Poland.
  • 21. Skira V.V., Tymofieiev I.L., Molchanov A.D., Karpinska I.A. 2004. Teoretychni umovy anodnoho rozdilennia metaliv metodom filtruvannia cherez zavantazhennia z okysno-vidnovnymy yakostiamy dlia vydalennia zalyshkovoho aliuminiiu z pytnoi vody. Bulletin of the National University «Lviv Polytechnic»: Chemistry, technology and applications of substances, 497, 125–127. (in Ukrainian)
  • 22. Teel Paul A. Pat. 6783684 USA, IPC7 С02 F 1/42. Water softening apparatus and associated method for sensing depletion of salt in a brine tank. No. 09/957564; applied 20.09.2001; publ. 31.08 2004; NPC 210/687.
  • 23. Trus I.M., Gomelia M.D., Radovechyk Ya.V. 2013. Method of alkali solution concentration at electrochemical processing of eluates containing sodium salts. Eastern-European Journal of Enterprise Technologies, 5/6(65), 20–23. (in Ukrainian)
  • 24. Trus I.M., Grabitchenko V.M., Gomelia M.D. 2013. Production of sulfuric acid during electrochemical processing of sulphate-containing eluates. Eastern-European Journal of Enterprise Technologies, 4/6(64), 10–13. (in Ukrainian)
  • 25. Vasylenko L.O., Shumbar K.V. 2014. Ochyshchennia promyvnykh stichnykh vod halvanokoahuliatsiieiu. Mistobuduvannia ta terytorialne planuvannia, 51, 30–35. (in Ukrainian)
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2b78de4f-4a20-4e5d-8ca8-941709615240
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