Determining the baking isotherm temperature of Söderberg electrodes and associated structural changes

Determining the baking isotherm temperature of Söderberg electrodes and associated structural changes

•Thermomechanical analysis was used to assess coal tar pitches.•The baking isotherm temperature was found to be between 450 and 475°C.•This temperature was independent of the physical and chemical composition of pitch.•Fourier Transform Infra-Red analysis was used to explain the observations. One of...

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Bibliographic Details
Published in:Minerals engineering Vol. 49; pp. 33 - 39
Main Authors: Shoko, L., Beukes, J.P., Strydom, C.A.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-08-2013
Subjects:
Baking isotherm temperature
Coal tar pitch
Fourier Transform Infra-Red (FTIR)
Söderberg electrodes
Thermo mechanical analysis (TMA)
Baking isotherm temperature
Coal tar pitch
Fourier Transform Infra-Red (FTIR)
Söderberg electrodes
Thermo mechanical analysis (TMA)
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Summary:•Thermomechanical analysis was used to assess coal tar pitches.•The baking isotherm temperature was found to be between 450 and 475°C.•This temperature was independent of the physical and chemical composition of pitch.•Fourier Transform Infra-Red analysis was used to explain the observations. One of the most commonly employed electrode systems in industrial metal smelting applications is continuous self-baking electrodes, i.e. the Söderberg electrode system. In this system, the temperature at which transition from a liquid/soft paste to a solid carbonaceous electrode takes place is termed the baking isotherm temperature. This temperature is extremely important within the context of electrode management. In this paper, thermo mechanical analysis (TMA) was used to measure the dimensional changes that take place in coal tar pitch in the temperature range relevant to the determination of the baking isotherm temperature. It was found that the baking isotherm temperature of coal tar pitches was between 450 and 475°C, irrespective of the initial chemical composition and physical characteristics of the coal tar pitch. Subsequent Fourier Transform Infra-Red (FTIR) analyses indicated that all coal tar pitches underwent similar compositional changes during the transition from a molten/liquid coal tar pitch to a solid carbonaceous material.
ISSN:0892-6875
1872-9444
DOI:10.1016/j.mineng.2013.04.015