Archive/Thermodynamic and Experimental Study of Combined Sulfation Roasting of Copper Sulfide Concentrates
Thermodynamic and Experimental Study of Combined Sulfation Roasting of Copper Sulfide Concentrates
Kalkaman Zhumashev, Aitbala Narembekova, Natalya Lu et al.
10 de julio de 2026
en

Abstract

This article is devoted to the development of a combined sulfation method (CSM) for processing low-grade copper-sulfide concentrates with a copper grade of 0.34–3.5%. The relevance of the study is driven by the depletion of Kazakhstan’s high-grade copper deposits and the need to incorporate off-balance sulfide raw materials into processing. CSM is based on the spatial separation of two thermally coupled zones in the filter bed of a shaft furnace: a zone of endothermic sulfation of sulfide minerals with ammonium hydrosulfate at 360–650 °C and a zone of exothermic oxidative roasting of residual sulfur at 640–660 °C. Excess oxidation heat compensates for the thermal losses of sulfation, ensuring an autogenous process without sintering of the charge. Flotation enrichment of off-balance ore from the Annenskoye deposit yielded a concentrate with a Cu grade of 7.59% and a copper recovery of 89.13–92.13%. Thermodynamic modeling was used to validate the temperature conditions for sulfation of individual minerals, and analytical relationships were developed for calculating reagent consumption and sulfur distribution. Laboratory tests confirmed the adequacy of the calculation model; the discrepancy between calculated and experimental data did not exceed 1.5%. The feasibility of regenerating ammonium hydrosulfate and extracting copper from the processed products was demonstrated. A basic flow chart for waste-free processing of low-grade copper-sulfide raw materials was proposed.

IPC Classification

G06C07

Keywords

thermodynamicexperimentalcombinedsulfationroastingcoppersulfideconcentratesmetalsarticledevoteddevelopmentprocessinglow-gradecopper-sulfidegraderelevancedrivendepletionkazakhstanhigh-gradedepositsneedincorporate
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