Leaching of Natural Stibnite Using Na2S and NaOH Solutions

E. Sminčáková, P. Raschman
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引用次数: 11

Abstract

First stage of the hydrometallurgical production of antimony is leaching of the raw material that contains antimonybearing mineral. The raw material can be ore or concentrate. Leaching can be carried out either in alkaline (Na2S+NaOH; NaOH) or acid (HCl; H2SO4; HF) solutions. In order to achieve good antimony recovery it is essential to leach the raw material under optimum conditions.Kinetics of the reaction between particulate stibnite and mixed Na2S + NaOH solutions were studied. The effects of concentrations of Na2S and NaOH, temperature, particle size and liquid-to-solid ratio were investigated. It was observed that the rate of leaching of stibnite: a) increased with an increase in both Na2S and NaOH concentration (from 0.5 wt. % to 2.0 wt. %), and temperature (from 292 K to 327 K); b) reached its maximum at Na2S: NaOH weight ratio equal to 1:1; c) decreased with an increase in particle size (from 40 μm to 500 μm) and L/S ratio (from 10 to 100). The results are presented in terms of the shrinking (nonreacted) core model and shrinking porous-particle model. Apparent activation energy is approximately 44 kJ mol and the apparent reaction order for Na2S varies from 1.4 to 1.7. Calculated values of the kinetic parameters indicate that the leaching process is controlled by both intrinsic chemical reaction between Sb2S3 and Na2S at the liquid/solid interface, and pore diffusion. Keywords-Stibnite, Kinetics, Alkaline leaching, Activation energy, Order of reaction
用Na2S和NaOH溶液浸出天然辉锑矿
湿法冶炼锑的第一阶段是含锑矿物原料的浸出。原料可以是矿石,也可以是精矿。浸出可在碱性(Na2S+NaOH)中进行;NaOH)或酸(HCl;硫酸;高频)解决方案。为了获得良好的锑回收率,必须在最佳条件下对原料进行浸出。研究了颗粒辉锑矿与Na2S + NaOH混合溶液的反应动力学。考察了Na2S和NaOH浓度、温度、粒径和液固比等因素的影响。观察到辉锑矿的浸出率:a)随着Na2S和NaOH浓度(从0.5 wt. %增加到2.0 wt. %)和温度(从292 K增加到327 K)的增加而增加;b) Na2S: NaOH质量比为1:1时达到最大值;c)随着粒径(从40 μm到500 μm)和L/S比(从10到100)的增加而减小。用收缩(未反应)核模型和收缩多孔粒子模型给出了结果。表观活化能约为44 kJ mol, Na2S的表观反应级数为1.4 ~ 1.7。动力学参数的计算值表明,浸出过程受Sb2S3与Na2S在液/固界面的内在化学反应和孔隙扩散的双重控制。关键词:辉锑矿,动力学,碱浸,活化能,反应顺序
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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