Copper smelting slag contains less than 2 mass pct of Cu oxide and 30–50 mass pct of FexO. Each year, the grade of copper ore decreases, while the amount of slag generated in… Click to show full abstract
Copper smelting slag contains less than 2 mass pct of Cu oxide and 30–50 mass pct of FexO. Each year, the grade of copper ore decreases, while the amount of slag generated in the copper smelting process increases. In this study, a coupled reaction model to simulate the reaction between multicomponent slag and FeS-based matte was developed using reported thermodynamic data and double-film theory for the recycling of copper smelting slag. The activity coefficients of oxides in the multicomponent slag were calculated using a regular solution. The activity coefficients of Cu2O in the slag and those of FeS, Cu2S, and CaS in the FeS-based matte used previously reported data. The behaviors of Cu in slag and matte were confirmed by comparing the simulated results and the reported solubility of Cu in the slag in the temperatures ranging from 1473 K to 1573 K. In addition, the effect of the input amount of FeS on the copper content of the slag was verified by comparing the results of reaction model to experimental results. Using the reaction model, the influences of the initial ratio of FeO/SiO2 of the slag, temperature, and matte composition on the behaviors of Cu in the slag and matte were investigated.
               
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