Nickel recovery from low-grade laterites: study of thermal pre-treatments to improve the efficiency of the hydrometallurgical process

IF 0.7 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY

Journal of Sustainable Mining Pub Date : 2023-07-30 DOI:10.46873/2300-3960.1389

J. Borda, R. Torres

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Abstract

Abstract The processing of lower-grade laterites to obtain nickel has increased due to the gradual depletion of higher-grade sulphide ore reserves. However, the extraction from laterites has been limited because conventional technologies imply a considerable expense of energy or reagents. In this document, the effect of thermal pre-treatments on a laterite sample is demonstrated to improve nickel leaching under moderate conditions. The influence of agents such as coke, coal and NaCl in the heat treatment was also studied. With the results it is presumed that part of the nickel occluded in the goethite migrates to the iron oxides surface during the heat treatment; this is why the dissolution of nickel is linked to that of iron. The highest extractions (64.7% nickel) were achieved by combining heat treatment and leaching with 1M H2SO4 at ambient conditions. Compared to direct leaching of unpretreated laterite, leaching rates for this metal are increased by 26.5%. The chlorinating calcination and the optimization of the studied variables will be favourable to reach higher metallic extractions.

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从低品位红土中回收镍:提高湿法冶金工艺效率的热预处理研究

摘要随着高品位硫化物矿储量的逐渐枯竭，低品位红土的镍加工日益增多。然而，红土的提取一直受到限制，因为传统技术意味着相当大的能源或试剂费用。在本文中，在中等条件下，对红土样品进行热预处理可以改善镍的浸出。研究了焦炭、煤、NaCl等药剂对热处理的影响。由此可以推测，在热处理过程中，部分封闭在针铁矿中的镍向氧化铁表面迁移;这就是为什么镍的溶解与铁的溶解联系在一起。在常温条件下，采用1M H2SO4浸出和热处理相结合的方法，镍提取率最高(64.7%)。与直接浸出未经预处理的红土相比，该金属的浸出率提高了26.5%。氯化焙烧和研究变量的优化有利于获得更高的金属提取率。

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