Chalcopyrite Leaching in Ammonia-Ammonium Chloride Solutions: Insight into the Dissolution Kinetic Studies

Journal of Sustainable Materials Processing and Management Pub Date : 2022-10-31 DOI:10.30880/jsmpm.2022.02.02.011

Shemang Y. Chindo, Kehinde I. Omoniyi, Mustapha A. Raji

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引用次数: 2

Abstract

The hydrometallurgical method for processing chalcopyrite ore has gained enormous attention due to the environmental problems emanated by the conventional pyrometallurgical route. Here, hydrometallurgy is considered an alternative that may be more of low-cost and environmentally friendly. Thus, alkaline leaching has been considered an effective, efficient, and acceptable leachant for chalcopyrite ore dissolution. The dissolution behaviour of copper from low-grade chalcopyrite mineral was examined in an ammonia-ammonium chloride media. However, the influence of experimental conditions including alkali concentration, reaction temperature, and particle size was considered. At optimized leaching conditions (o.4 mol/L NH3-NH4Cl; 75 °C; 43 μm), 81.1% dissolution efficiency was achieved within 120 minutes. The dissolution mechanism with estimated activation energy (Ea)of 29.95 kJ/mol is by the proposed diffusion control mechanism. Hence, the dissolution rate was affirmed by analyzing the raw ore and un-leached residue using XRD and SEM-EDS analyses for possible industrial utilities.

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黄铜矿在氨-氯化铵溶液中的浸出:溶解动力学研究

由于传统火法处理黄铜矿产生的环境问题，湿法处理黄铜矿受到了广泛的关注。在这里，湿法冶金被认为是一种更低成本和更环保的替代方法。因此，碱性浸出被认为是一种有效、高效、可接受的黄铜矿溶解浸出剂。研究了低品位黄铜矿中铜在氨-氯化铵介质中的溶解行为。同时考虑了碱浓度、反应温度、粒径等实验条件的影响。在最佳浸出条件下(0.4 mol/L NH3-NH4Cl;75°C;43 μm)， 120 min内溶出率达到81.1%。溶解机理为扩散控制机制，活化能为29.95 kJ/mol。因此，通过对原矿和未浸渣进行XRD和SEM-EDS分析，确定了溶出率，以供工业应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Sustainable Materials Processing and Management

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