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Impurity capacities of non-ferrous slags

The complexity in treating environmentally harmful impurities such as As, Sb, Bi from the base metal matte or metal in the smelting stage are responsible for the high cost of the refining process. The impurity capacities (such as arsenic, antimony and bismuth) of slags were calculated a priori using Reddy-Blander (RB) model. The capacity predictions were for a wide range of matte and slag compositions in copper smelting conditions. The calculated impurities capacities and impurity distribution ratios results are in good agreement with the available experimental and industrial slags data. The a priori knowledge of impurities is useful for reduction of energy consumption and enhanced environmental control in the current and future non-ferrous metal processes.

Australasian Institute of Mining and Metallurgy (AusIMM)

R G Reddy

12th International Conference of Molten Slags, Fluxes and Salts (MOLTEN 2024) Proceedings

2024

Title: Impurity capacities of non-ferrous slags

Description:

The complexity in treating environmentally harmful impurities such as As, Sb, Bi from the base metal matte or metal in the smelting stage are responsible for the high cost of the refining process.

The impurity capacities (such as arsenic, antimony and bismuth) of slags were calculated a priori using Reddy-Blander (RB) model.

The capacity predictions were for a wide range of matte and slag compositions in copper smelting conditions.

The calculated impurities capacities and impurity distribution ratios results are in good agreement with the available experimental and industrial slags data.

The a priori knowledge of impurities is useful for reduction of energy consumption and enhanced environmental control in the current and future non-ferrous metal processes.

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Impurity capacities of non-ferrous slags

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