2014-Sustainable Industrial Processing Summit
SIPS 2014 Volume 3: Non-ferrous & Iron_Steel

Editors:Kongoli F
Publisher:Flogen Star OUTREACH
Publication Year:2014
Pages:522 pages
ISBN:978-1-987820-05-8
ISSN:2291-1227 (Metals and Materials Processing in a Clean Environment Series)
CD-SIPS2014_Volume
CD shopping page

    Physical-chemical properties of low-temperature electrolytes of interest for aluminum production

    Yuriy Zaikov1; Olga Tkacheva1; Alexander Redkin1; Alexander Kataev1;
    1INSTITUTE OF HIGH TEMPERATURE ELECTROCHEMISTRY OF THE URAL BRANCH OF THE RUSSIAN ACADEMY OF SCIENCES, Ekaterinburg, Russian Federation;
    Type of Paper: Keynote
    Id Paper: 329
    Topic: 3

    Abstract:

    The conventional technology for aluminum production uses consumable carbon anodes evolving CO and CO2. The high energy and material consumption, as well as the significant greenhouse emission encouraged the industry and researchers to pursue innovative technologies for aluminum production. Recently, a new low-temperature process based on electrolysis of low-melted potassium and potassium-sodium cryolites became a subject of interest: decreasing the operating temperature can decrease energy costs and reduce material corrosion, electrolyte evaporation, aluminum solubility in electrolyte, and alkali metal content in the aluminum product. Besides, the low-temperature electrolytic bath allows implementation of oxygen-evolving inert anodes and wetted cathodes that result in significant energy and environment benefits for aluminum production. The basic physical-chemical properties (liquidus temperature, electrical conductivity, density, and alumina solubility) of the mixed potassium-sodium cryolites (KF-NaF-AlF3) with cryolite ratio (CR) 1.3-1.5 containing LiF and CaF2 additions were measured and described by overall regression equations. The KF-AlF3 and KF-NaF (12-15 wt%)-AlF3 melts with CR=1.3-1.5 have the liquidus temperature below 800°C, and the alumina solubility over 4.5 wt% in the 700-800°C temperature range. The LiF additions in amount of not more than 3 wt% are optional to improve the electrical conductivity. The presence of CaF2 in electrolyte is not desirable. Based on obtained data the prospective electrolyte compositions can be chosen for low-temperature aluminum electrolysis.

    Keywords:

    aluminum, low-temperature electrolysis, potassium and potassium-sodium cryolites, inert anodes

    Full Text:

    Click here to access the Full Text

    Cite this article as:

    Zaikov Y, Tkacheva O, Redkin A, Kataev A. Physical-chemical properties of low-temperature electrolytes of interest for aluminum production. In: Kongoli F, editors. Sustainable Industrial Processing Summit SIPS 2014 Volume 3: Non-ferrous & Iron_Steel. Volume 3. Montreal(Canada): FLOGEN Star Outreach. 2014. p. 191-200.