Efficient Assessment of Physico-Chemical Properties of the Cryolite Melts for Research on the Improvement of Low-Temperature Aluminum Electrolysis-Reference-Cited by-同舟云学术

Efficient Assessment of Physico-Chemical Properties of the Cryolite Melts for Research on the Improvement of Low-Temperature Aluminum Electrolysis

Published:2018-10 Issue: Volume:284 Page:839-844
ISSN:1662-9779
Container-title:Solid State Phenomena
language:
Short-container-title:SSP

Author:

Lebedev V.A.¹,Shoppert Andrey A.

Affiliation:

1. Ural Federal University

Abstract

Modern aluminum electrolysis in cryolite-alumina melts is energy-intensive, inefficient and environmentally hazardous production. Addressing these significant shortcomings, the technology of low-temperature electrolyte is directed. The basis of low-temperature electrolysis is potassium cryolite, which results in high magnitude and rate of dissolution of alumina. Additive of sodium and lithium fluorides provide the necessary conductivity. Experimental investigation of these properties is extremely time consuming. In this work, as a parameter, which will allow to characterize effectively and rapidly the complexing ability of cryolite melts, the ratio of cationic ion power of Al3+ to the total power of the other cations of the melt is proposed. Regression analyses of the known experimental data establish the existence with a high level of reliability (R2=0.966-0.995) of a directly proportional dependence of this parameter on solubility of alumina and electrical conductivity of cryolite melts.

Publisher

Trans Tech Publications, Ltd.

Subject

Condensed Matter Physics,General Materials Science,Atomic and Molecular Physics, and Optics

Link

https://www.scientific.net/SSP.284.839.pdf

Reference20 articles.

1. Yu. Zaikov, A. Khramov, V. Kovrov, V. Kryukovsky, A. Apisarov, O. Chemesov, N. Shurov, O. Tkacheva, Electrolysis of aluminum in the low melting electrolytes basedon potassium cryolite, Light metals. 1 (2008) 505-509.

2. H. Kvande, W. Haupin, Inert anode for Al smelters: energy balances and environmental impact, JOM. 5 (2001) 29-31.

3. J. Thonstad, E. Olsen, Cell Operation and Metal Purity Challenges for the Use of Inert Anodes, JOM. 5 (2001) 36-40.

4. J. Thonstad, A. Kiszha, J. Hives, Anode overvoltage on metallic inert anodes in low-melting bath, Light Metals. 1 (2006) 373-380.

5. V.A. Lebedev, V.N. Pismak, A.Yu. Nikolaev The possibility of low-temperature electrolysis of alumina, Tsvetnie metally. 4 (2007) 85-87.

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