The Effect of MgO on Gas–Slag–Matte–Tridymite Equilibria in Fayalite-Based Copper Smelting Slags at 1473 K (1200 °C) and 1573 K (1300 °C), and P(SO2) = 0.25 atm

Understanding the significance of magnesia as a common component in copper processing slags is essential for optimisation of the industrial copper production. Fundamental experimental studies have been undertaken to determine the effect of MgO on the equilibria between the gas phase (CO-CO 2 -SO 2 -...

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Bibliographic Details
Published in:Journal of phase equilibria and diffusion 2020-02, Vol.41 (1), p.44-55
Main Authors: Abdeyazdan, Hamed, Fallah-Mehrjardi, Ata, Hidayat, Taufiq, Shevchenko, Maksym, Hayes, Peter C., Jak, Evgueni
Format: Article
Language:English
Subjects:
Carbon dioxide
Ceramics
Composites
Copper
Copper mattes
Crystallography and Scattering Methods
Engineering Thermodynamics
Equilibrium
Fayalite
Glass
Heat and Mass Transfer
Magnesium oxide
Metallic Materials
Natural Materials
Optimization
Phase equilibria
Physics
Physics and Astronomy
Silicon dioxide
Slag
Smelting
Sulfur
Sulfur dioxide
Temperature effects
Thermodynamics
Tridymite
Vapor phases
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Summary:Understanding the significance of magnesia as a common component in copper processing slags is essential for optimisation of the industrial copper production. Fundamental experimental studies have been undertaken to determine the effect of MgO on the equilibria between the gas phase (CO-CO 2 -SO 2 -Ar) and slag-matte-tridymite phases in the Cu-Fe-O-S-Si-Mg system at 1473 K (1200 °C) and 1573 K (1300 °C), and P (SO 2 ) = 0.25 atm. The experimental methodology used was based on equilibration, quenching and microanalysis. New experimental data have been obtained for the four-phase gas–slag–matte–tridymite equilibria system for a range of MgO concentrations up to 3.1 wt pct in the slag phase as a function of matte grade, including the concentrations of dissolved sulphur and copper in slag, and Fe/SiO 2 ratios in slag. The results are also used to analyse the effect of temperature on phase equilibria in the range investigated. The results obtained showed that dissolution of sulphur, copper and “FeO” in slag decreases with increase of MgO in slag while it has no detectable effect on concentration of sulphur in matte. Also, dissolved copper and sulphur in slag increases when temperature increases while the Fe/SiO 2 ratio in slag is greater at 1473 K (1200 °C) than 1573 K (1300 °C). The new data provided in the present study are of direct relevance to the pyrometallurgical processing of copper and will be used as an input for optimization of the FactSage thermodynamic database for the copper-containing multi-component multi-phase system.
ISSN:1547-7037
1863-7345
1934-7243
DOI:10.1007/s11669-020-00778-5