锂云母矿硫酸盐焙烧-水浸提锂工艺及机理

    Process and Mechanism of Sulfate Roasting-Water Extraction of Lithium from Lithium Mica Ore

    • 摘要: 这是一篇冶金工程领域的文章。以江西某地锂云母矿为原料,通过对焙烧-浸出、拌酸熟化、直接酸浸出、碱压煮法等工艺进行探索实验,最终采用加硫酸盐焙烧-水浸法从锂云母矿中提锂。同时研究了焙烧温度、焙烧时间、添加剂种类、添加剂用量、浸出液固比、浸出温度等条件对锂浸出率影响,结果显示,焙烧温度对锂浸出率影响较大,在适当的焙烧温度范围内,锂的浸出效果较好。向锂云母矿中加入40%硫酸钾、20%硫酸钠、20%氧化钙,在900 ℃下焙烧1 h,焙砂按液固比1∶1在常温下浸出1 h,锂浸出率可达94.87%。这说明采用硫酸盐作添加剂来焙烧提锂效果较好,通过研究焙烧机理可知,加入硫酸盐经高温焙烧后,矿物结构被重构,矿中钠钾离子与锂云母中的锂离子置换,使其从难溶性铝硅酸盐矿物中分离,生成可溶性的硫酸锂,从而经水浸后进入溶液中。

       

      Abstract: This is an essay in the field of metallurgical engineering. Taking a lithium mica ore in Jiangxi as raw material, the roasting-leaching, mixed acid ripening, direct acid leaching and alkali pressure cooking process were explored. Finally, the sulfate roasting-water leaching method was used to extract lithium from lithium mica ore. At the same time, the effects of roasting temperature, roasting time, additive type, additive amount, liquid-solid ratio and leaching temperature on lithium leaching rate were studied. The results show that roasting temperature has a great influence on lithium leaching rate, and the leaching effect of lithium is better in the appropriate roasting temperature range. 40% potassium sulfate, 20% sodium sulfate and 20% calcium oxide were added to the lithium mica ore, calcinated at 900 ℃ for 1 h, and the calcine was leached at room temperature for 1 h according to the liquid-solid ratio of 1∶1. The lithium leaching rate reached 94.87%. This shows that the effect of using sulfate as an additive to roast and extract lithium is better. Through the study of the roasting mechanism, it can be seen that the mineral structure is reconstructed after the addition of sulfate after high temperature roasting. The sodium and potassium ions in the ore are replaced with lithium ions in the lithium mica, so that they are separated from the insoluble aluminum silicate minerals to generate soluble lithium sulfate, which is then immersed in water and then into the solution.

       

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