Dissolution Behavior of Gold in Alkaline Media Using Thiourea

C. Vargas, P. Navarro, D. Espinoza, J. Manriquez, E. Mejia
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引用次数: 4

Abstract

In this work the dissolutive behavior of gold in alkaline medium using thiourea (TU), under different variables, was studied in a theoretical and experimental way, in order to determine the conditions under which it is feasible to dissolve gold in thiourea-alkaline medium. A thermodynamic study was conducted by chemical speciation using the method of Ro-jas-Hernandez, together with an electrochemical study where the electric potential was swept in the anodic direction. The main results of the thermodynamic study were that formamidine disulfide (FDS) and sulfinic compounds (S.C.) prevail at alkaline pH; by increasing the initial concen-tration of thiourea at alkaline pH, the presence of the gold complex is al-most zero for any initial concentration of thiourea. By including sodium sulfite in the gold-thiourea system, it was possible to obtain the Au(I)-TU complex at alkaline pH, with a presence of 95.13%. Electrochemical tests allowed verifying that in the absence of sodium sulfite the dissolution of gold in an alkaline medium is very slow but adding sodium sulfite im-provements become evident in the dissolution of the metal. Therefore, sodium sulfite catalyzes the gold dissolution process and stabilizes the thiourea. With this study it was possible to establish the feasibility of using thiourea in an alkaline medium for the dissolution of gold, and the conditions under which it is possible to dissolve the gold in that medium. With these fundamentals and conditions, it is now possible to move forward to test this system for minerals and/or concentrates containing gold.
硫脲对金在碱性介质中的溶解行为研究
本文从理论和实验两方面研究了硫脲(TU)在碱性介质中溶解金的行为,确定了硫脲-碱性介质中溶解金的可行条件。利用Ro-jas-Hernandez的化学形态法进行了热力学研究,同时进行了电化学研究,电势在阳极方向上扫过。热力学研究的主要结果是:在碱性条件下,甲脒二硫化物(FDS)和亚砜化合物(S.C.)占主导地位;在碱性pH下增加硫脲的初始浓度,对于任何初始浓度的硫脲,金络合物的存在几乎为零。通过在金-硫脲体系中加入亚硫酸钠,可以在碱性pH下得到Au(I)-TU配合物,存在率为95.13%。电化学试验证实,在没有亚硫酸钠的情况下,金在碱性介质中的溶解非常缓慢,但加入亚硫酸钠后,金的溶解效果明显改善。因此,亚硫酸钠催化了金的溶解过程,稳定了硫脲。通过这项研究,有可能确定在碱性介质中使用硫脲溶解金的可行性,以及在该介质中溶解金的可能条件。有了这些基础和条件,现在就有可能对该系统进行含金矿物和/或精矿的测试。
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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