Use of cavitation to enhance the leaching kinetics of refractory gold ores

IF 0.9 Q3 MINING & MINERAL PROCESSING Mineral Processing and Extractive Metallurgy-Transactions of the Institutions of Mining and Metallurgy Pub Date : 2022-12-07 DOI:10.1080/25726641.2022.2153484

Jean Jacques Kalombo Mbayo, H. Simonsen, S. Ndlovu

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Abstract

ABSTRACT The cyanidation process for refractory gold ores has been the subject of numerous investigations aimed at improving gold recovery and leaching kinetics. From recent literature investigations, hydrodynamic cavitation has been found to be a promising new approach which may modify the cyanidation processes. In this study, this approach results in the enhancement of mass transfer kinetics in multiphase fluid streams due to impacting two pulps streams against one another in a vessel called the Jetleach reactor. In this work, the Jetleach reactor was applied to a flotation concentrate from a South African gold tailings processing plant (Ergo) where an improvement of almost 10% in gold recovery was obtained while decreasing cyanide and oxygen consumption by almost 8% and 50%, respectively. The main reason for the improvement is surmised to be due to the generation of micro-cavitation which improves the mass transfer of oxygen and cyanide within the slurry.

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利用空化提高难浸金矿的浸出动力学

摘要难浸金矿石的氰化工艺一直是众多研究的主题，旨在提高金的回收率和浸出动力学。从最近的文献研究来看，流体动力学空化是一种很有前途的新方法，可以改变氰化过程。在这项研究中，由于在一个称为Jetleach反应器的容器中两股纸浆流相互碰撞，这种方法增强了多相流体流中的传质动力学。在这项工作中，Jetleach反应器被应用于南非黄金尾矿处理厂（Ergo）的浮选精矿，在该厂，黄金回收率提高了近10%，同时氰化物和氧气消耗分别减少了近8%和50%。据推测，改善的主要原因是由于微空化的产生，微空化改善了浆料中氧气和氰化物的传质。

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Mineral Processing and Extractive Metallurgy-Transactions of the Institutions of Mining and Metallurgy MINING & MINERAL PROCESSING-

CiteScore

3.50

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