A highly efficient clean hydrometallurgy process for gold leaching in a Fenton oxidation assisted thiourea system

Clean hydrometallurgy processes, formed by “oxidant-ligand” systems, present promising strategies for gold leaching to mitigate the environmental impact of cyanidation. In this work, a Fenton oxidation-assisted thiourea system was proposed, employing reactive oxygen species (ROS, generated from Fent...

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Bibliographic Details
Published in:Sustainable Materials and Technologies 2024-07, Vol.40, p.e00975, Article e00975
Main Authors: Hou, Lei, Valdivieso, Alejandro López, Chen, Yu, Chen, Peng, Zainiddinovich, Nasriddinov Zamoniddin, Wu, Chunhui, Song, Shaoxian, Jia, Feifei
Format: Article
Language:English
Subjects:
Clean hydrometallurgy
Fenton oxidation
Gold leaching
Thiourea
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Summary:Clean hydrometallurgy processes, formed by “oxidant-ligand” systems, present promising strategies for gold leaching to mitigate the environmental impact of cyanidation. In this work, a Fenton oxidation-assisted thiourea system was proposed, employing reactive oxygen species (ROS, generated from Fenton reaction) as oxidant and thiourea as the ligand, respectively. By precise parameters control, 100% leaching of gold was rapidly achieved within 30 min from a roasted gold concentrate, highlighting extremely fast kinetics. Furthermore, this system was optimized by incorporating nitrilotriacetic acid (NTA) as an additive, which significantly reduced the thiourea consumption and produced the same gold leaching (100%, 60 min). Experimental results demonstrate that NTA lowers the solution potential (ORP) and eliminates the side reactions between iron ions and thiourea, thereby reducing thiourea decomposition. Surprisingly, the combination of Fenton oxidation and thiourea showed a high selectivity of the generation of ROS, with superoxide radical anion (•O2−) dominating, singlet oxygen (1O2) co-existing, but hydroxyl radical (•OH) absenting. Importantly, the moderate •O2− primarily contributes to gold leaching, which is generated through a chain reaction pathway between iron complex and H2O2 (Fe3+-Ligand+H2O2 → Ligand-Fe3+-OOH → Fe2+-Ligand+•O2−). Besides, the generation process of •O2− can be regulated by adding NTA. This work presented a prospective way in establishing the clean hydrometallurgy processes for efficient gold leaching. [Display omitted] •A clean hydrometallurgy process for gold leaching based on Fenton oxidation-assisted thiourea system was proposed.•Fenton oxidation enhanced Au leaching, achieving 100% leaching efficiency from a roasted gold concentrate in 30 min.•Nitrilotriacetic acid (NTA) as additive effectively reduced the consumption of thiourea.•The moderate •O2− generated by fenton reaction plays a dominant role for gold leaching.
ISSN:2214-9937
DOI:10.1016/j.susmat.2024.e00975