期刊
HYDROMETALLURGY
卷 216, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.hydromet.2022.106008
关键词
Glycine; Leaching; Recovery; Precious metals; Base metals
In the past decade, there has been significant interest in non-conventional lixiviants, particularly organic acids and amino acids. Among the amino acids, glycine is widely studied as a non-toxic, non-volatile, and recyclable reagent for leaching base and precious metals. The glycine leaching system shows promise as an alternative to traditional methods in the hydrometallurgical industry.
The past decade has seen significant interest in non-conventional lixiviants, particularly the growing interest in organic acids and amino acids. Of the amino acids, glycine has much coverage in the hydrometallurgical and mineral processing literature as a reagent that is non-toxic, non-volatile, and recyclable. The glycine leaching system (i.e., an aqueous system typically consisting of glycine or one of its alkali metal salts, a pH modifier, an oxidant and sometimes, other catalysts or modifiers) has been shown effective in selectively extracting base and precious metals from various resources. Using a glycine leaching system can, therefore, be considered a prom-ising substitute for traditional methods in the hydrometallurgical industry. This paper reviews the application of amino acids and emphasizes the glycine leaching system to extract valuable metals from natural and secondary resources. In the study, variations of the glycine leaching systems with different oxidants, synergists and catalysts are summarised and discussed. Different approaches to downstream metal recovery from glycine-containing leachates are reviewed. Other less commonly reported amino acids are also summarised and discussed. Finally, the perspectives and outlooks of the area are given. It is hoped that the present review can help to understand the relatively new area with state-of-the-art advancements, and to promote the development of glycine leaching system in hydrometallurgy.
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