Dissolution of Nickel and Cobalt from Iron-Rich Laterite Ores Using Different Organic Acids

IF 1.1 Q3 MINING & MINERAL PROCESSING
M. H. Nasab, M. Noaparast, H. Abdollahi
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引用次数: 1

Abstract

Due to the decreasing production of nickel and cobalt from sulfide sources, the Ni and Co extraction from the oxide ores (laterites) have become more prevalent. In this research work, the effects of calcination prior to leaching, acid concentration, percent solid, pH, and stirring speed on the nickel and cobalt recoveries from an iron-rich laterite ore sample were investigated using different organic acids. Then the response surface methodology was implemented in order to optimize the various parameters. By the design of experiments, the compound optimal concentrations of the three different organic acids (gluconic acid: lactic acid: citric acid with a ratio of 1:2:3) were 3.18 M, and S/L = 0.1, pH = 0.5, and the stirring speed = 386 rpm. With the aid of kinetic studies, a temperature of 75 °C, and a test time of 120 minutes, the highest nickel and cobalt recoveries were 25.5% and 37.6%, respectively. In the optimal conditions, the contribution of the percent solids to the nickel recovery was the most and negative, after which the contribution of pH was negative, and finally, the acid concentration had a positive effect. In the optimal conditions, the acid concentration, pH, and solid content were, respectively, important in the cobalt recovery. The SEM results showed that the surface of feed and residue particles in the optimal conditions was not significantly different, and the laboratory data was fitted to a shrinking core model. The results obtained indicated that the reaction rate was controlled by the diffusion reaction at the particle surface, and the activation energies of 11.09 kJ/mol for nickel and 28.04 kJ/mol for cobalt were consistent with this conclusion
用不同有机酸从富铁红土矿中溶解镍和钴
由于硫化物来源的镍和钴产量下降,从氧化物矿石(红土)中提取镍和钴变得更加普遍。在这项研究工作中,使用不同的有机酸研究了浸出前煅烧、酸浓度、固体百分比、pH和搅拌速度对富铁红土矿样品中镍和钴回收率的影响。然后采用响应面方法对各种参数进行优化。通过实验设计,三种不同有机酸(葡萄糖酸:乳酸:柠檬酸,比例为1:2:3)的化合物最佳浓度为3.18M,S/L=0.1,pH=0.5,搅拌速度=386rpm。在动力学研究的帮助下,温度为75°C,试验时间为120分钟,镍和钴的最高回收率分别为25.5%和37.6%。在最佳条件下,固含量对镍回收率的贡献最大且为负,之后pH值的贡献为负,最后,酸浓度产生了积极影响。在最佳条件下,酸浓度、pH和固体含量分别对钴回收率很重要。SEM结果表明,在最佳条件下,进料和残渣颗粒的表面没有显著差异,实验室数据符合缩芯模型。结果表明,反应速率受颗粒表面扩散反应的控制,镍和钴的活化能分别为11.09kJ/mol和28.04kJ/mol
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来源期刊
Journal of Mining and Environment
Journal of Mining and Environment MINING & MINERAL PROCESSING-
CiteScore
1.90
自引率
25.00%
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