Archive/Waste-on-Waste Roasting of Copper Slag with Flotation Tailings for Selective Recovery of Cu, Ni, and Co
Waste-on-Waste Roasting of Copper Slag with Flotation Tailings for Selective Recovery of Cu, Ni, and Co
Bobur Gayratov, Bekhzod Gayratov, Labone L. Godirilwe et al.
July 14, 2026
en

Abstract

Copper smelter slag represents a significant secondary resource of critical metals, while flotation tailings serve as an abundant sulfur-bearing waste stream. This study investigated a waste-on-waste sulfation roasting approach for the selective recovery of Cu, Ni, and Co from fayalite copper smelter slag using flotation tailings as an in situ sulfur source and sodium metabisulfite (SMBS, Na2S2O5) as a sulfation promoter. The effects of roasting temperature, roasting time, slag-to-tailings ratio, SMBS dosage, and water-leaching conditions were systematically evaluated. Under the optimum conditions of a slag-to-tailings ratio of 1:1, roasting at 600 °C for 4 h with 30 wt% SMBS addition, followed by water leaching at 25 °C for 2 h, extraction efficiencies of 85.5% Cu, 81.6% Ni, and 87.1% Co were achieved, while Fe dissolution remained below 5%, demonstrating high selectivity. Phase and microstructural analyses by XRD, FTIR, SEM, and TG–DTA revealed that pyrite oxidation generated sulfur oxides required for metal sulfation, whereas SMBS promoted sulfur release and sulfate stabilization, enhancing sulfation efficiency. Thermodynamic analysis further confirmed the feasibility of sulfide oxidation and sulfate formation within the investigated temperature range. The results demonstrate that the synergistic use of tailings and SMBS enables efficient low-temperature sulfation roasting of fayalite slag and provides a promising route for the selective recovery of valuable metals from metallurgical waste materials.

IPC Classification

C07

Keywords

waste-on-wasteroastingcopperslagflotationtailingsselectiverecoveryrecyclingsmelterrepresentssignificantsecondaryresourcecriticalmetalswhileserveabundantsulfur-bearingwastestreaminvestigatedsulfation
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