Thermodynamics of chalcocite dissolving in solutions of flotation reagents

Bulletin of the Karaganda University. "Chemistry" series Pub Date : 2022-03-30 DOI:10.31489/2022ch1/122-132

R. Shlyapov, S. Amerkhanova, А.S. Uali, T. B. Omarbekov, D. Belgibayeva

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Abstract

This work describes the formation of the ionic composition of the sorption layer during the concentration of copper-lead and pyrite-copper-zinc ore. The thermodynamics of the sorption layer of a sulfhydryl collector (sodium diisobutyl thiophosphate and potassium butyl xanthate) on the surface of chalcocite under various conditions of its oxidation has been studied using pH- and redoxometry. The nature of the change in the chalcocite electrode potential depending on the type of modifier and storage device, as well as on pH, has been experimentally clarified. The differences in the collective action of a one-component accumulator and a mixture of flotation reagents were revealed based on the thermodynamics analysis of the flotation process reactions. In addition, the optimal conditions for the flotation were determined. It was found that the quality of the concentrate is mainly influenced by two factors, such as the pulp redox potential and the pH of the medium. Mathematical equations of the optimal reagent and hydrodynamic enrichment regimes with the maximum dissolution of ore minerals in solutions of flotation reagents were modeled.

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辉铜矿在浮选药剂溶液中溶解的热力学

本文描述了在铜铅矿和黄铁矿铜锌矿浓缩过程中吸附层离子组成的形成。用pH-和氧化还原法研究了硫化物捕收剂(二异丁基硫代磷酸钠和丁基黄药钾)在辉铜矿表面不同氧化条件下的吸附层热力学。辉铜矿电极电位变化的性质取决于改性剂和存储装置的类型，以及pH值，已经实验澄清。通过对浮选过程反应的热力学分析，揭示了单组分蓄能器与混合浮选剂的集体作用差异。此外，还确定了浮选的最佳条件。结果表明，矿浆氧化还原电位和介质pH值是影响精矿质量的主要因素。建立了浮选药剂溶液中最优药剂和矿石最大溶解度下流体动力富集制度的数学方程。

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Bulletin of the Karaganda University. "Chemistry" series

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