Paper Titles

Perspective Method for Regeneration of Spent Solutions from Printed Circuit Boards Etching
p.548

Selective Acid Leaching of Copper and Zinc from Old Flotation Tailings
p.554

Uranium Bioleaching from Low Grade Ore
p.559

Fine Gold Extraction Problem from Industrial Sludge
p.564

Anodic Dissolution of Non-Ferrous Metals in a Glycerate-Alkali Electrolyte
p.569

Structural Changes in the Aluminum - Magnesium System Alloy
p.577

Development of Cryptocrystalline Graphite Desulfurization Methods
p.583

Improving the Quality of Production of Sand Core on Core Shooting Machines
p.589

Assessment of Mold Filling Rate Influence on Amount of Oxide Films in Castings by Numerical Simulation
p.595

HomeMaterials Science ForumMaterials Science Forum Vol. 989Anodic Dissolution of Non-Ferrous Metals in a...

Anodic Dissolution of Non-Ferrous Metals in a Glycerate-Alkali Electrolyte

Article Preview

Abstract:

Studies have been conducted to assess the possibility of refining a lead collector containing precious metals, with the aim of obtaining lead using an economically viable technology. Studied the patterns of anodic oxidation of lead and impurities in alkaline-water-glycerate electrolytes, depending on the concentration of sodium hydroxide and glycerol in the electrolyte, the potential sweep rate.

You might also be interested in these eBooks

Materials Science and Metallurgical Technology II

Info:

Periodical:

Materials Science Forum (Volume 989)

Pages:

569-573

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.989.569

Citation:

Cite this paper

Online since:

May 2020

Authors:

Vladimir A. Valnev*, Vladimir G. Lobanov, Lev A. Lubnin

Keywords:

Alkali, Anodic Polarization, Glycerate Electrolyte, Lead, Silver Crust

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2020 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] V.V. Ekilik, Theory of corrosion and protection of metals: handbook, Rostov-on-the-Don, (2004).

[2] A.A. Korolev, S.A. Krayukhin, G.I. Maltsev, E.S. Filatov, Treatment of silver foam by vacuum distillation, J. Universities' Proceedings Non-Ferrous Metallurgy. 4 (2017) 21-29.

[3] Yu.V. Baimakov, A.I. Zhurin, Electrolysis in hydrometallurgy, Metallurgizdat, Moskow, (1963).

[4] V.A. Lebedev, Theory of electrometallurgy of non-ferrous metals, Ural Polytechnic Institute, Yekaterinburg, (1991).

[5] F.M. Loskutov, Metallurgy of lead, Metallurgy, Moskow, (1965).

[6] V.Ya. Zaitsev, E.V. Margulis, Lead and zinc metallurgy, Metallurgy, Moskow, (1985).

[7] N.P. Smirnov, Lead refining and processing of industrial products, Metallurgy, Moskow, (1977).

[8] M.A. Abdeev, L.S. Getskin, A.Ya. Zaplavniy, Modern methods of processing of lead-zinc ores and concentrates, Metallurgy, Moskow, (1964).

[9] S.V. Ostanova, G.L. Pashkov, S.V. Drozdov, A.V. Chubarov, Study of the process of electroextraction of lead from nitric acid milieu, Regional interuniversity scientific conference Intellect-2002,: sourcebook, Krasnoyarsk, 2002, pp.327-328.

[10] E.S. Bugenov, R.E. Nurlybaev, J.K. Shaidarbekova, A.A. Murzagulova, Electrolysis of antimony from alkaline glycerate solutions, J. Vestnik KazNTU, 1 (2013) 112-114.

[11] P.P. Baiborodov, A.B. Ezhkov, Glycerate method of lead raw material processing, author's certificate №195105, USSR. (1967).

[12] S. Ishankhodzhaev, Chemistry and technology of production of antimony, lead and their compounds in the presence of polyatomic alcohols: author's abstract of dissertation of Dr. Sci (Tech.), Tashkent, (1997).

[13] Baizer M.M., Lund H. Organic electrochemistry, New York, 1983, P. 285.

[14] S. Abdurakhmonov, The development and improvement of technology of extraction of gold and antimony from a refractory ores: author's abstract of dissertation of Dr. Sci (Tech.), Navoi, (1997).

[15] E.U. Kurkchi, A.M. Fedorenko, U.M. Kurkchi, Solubility of antimony (III) oxides in aqueous solutions of polyatomic alcohols and calcium hydroxides, barium, Scientific notes of Taurida state University, Volume 2, №13, Simferopol, 2000. pp.185-188.

[16] M.S. Kogan, Processing of sulphate-oxide fraction of lead accumulator scrap in conditions of small-scale production: author's abstract of dissertation of Cand. Sci. (Tech.), Saint-Petersburg, (1994).

[17] T. N. Ostanina, Theoretical electrochemistry: a laboratory course, Ural Federal University, Yekaterinburg, (2013).

[18] M.G. Kiselev, J.A. Mrochek, A.V. Drozdov, Electrophysical and electrochemical methods of materials processing, INFRA-M, Moskow, (2014).

[19] A.S. Kholkina, Electrochemical separation of Pb-Sb-Bi alloys in a mixture of potassium and lead chlorides, author's abstract of dissertation of Cand. Sci. (Chem.), Ural Federal University, Yekaterinburg, (2018).

[20] S.V. Astapchik, Electroextraction of lead from nitric acid electrolytes, author's abstract of dissertation of Cand. Sci. (Chem.), Krasnoyarsk, (2007).