溶剂萃取法从稀土矿石中提取和回收铈

Kai Li, Ji Chen, Dan Zou
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引用次数: 10

摘要

稀土元素广泛存在于许多矿物中,其中一些矿物,如钡长辉石、独居石和磷灰石,具有很大的商业价值。铈(Ce)是轻稀土矿中含量最高的稀土元素,溶剂萃取是从其他轻稀土元素中回收分离Ce的最有效、最高效的方法。对稀土矿物进行酸浸后,得到浸出液,通过萃取和汽提得到高纯度的氧化铈产品。众所周知,采用传统的溶剂萃取法可以很容易地将Ce(IV)与RE(III)分离。基于这一原理,开发了四川氟碳铈矿的氧化焙烧和铈(IV)分离洁净工艺。在此基础上,提出了白云鄂博混合稀土矿两步氧化萃取Ce(IV)的初步流程。含Ce(IV)的硫酸稀土溶液→还原Ce 4+生成Ce 3+→NaOH碱分解→HCl增溶→草酸沉淀→煅烧。
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Extraction and Recovery of Cerium from Rare Earth Ore by Solvent Extraction
Rare earth elements are widely found in many minerals, some of which, such as bastn- aesite, monazite, and xenotime, are of great commercial value. Cerium (Ce) is the rare earth element with the highest content in light rare earth ore. Solvent extraction is the most effective and efficient method to recover and separate Ce from other light rare earth elements. After acid leaching of rare earth minerals, leaching solution was obtained, and cerium oxide of products of high purity was obtained by extraction and stripping. It is well known that Ce(IV) can be easily separated from the other RE(III) by adopting the traditional solvent extraction. Based on this principle, the clean process of oxidation roast ing and Ce(IV) separation for Sichuan bastnaesite was developed. And then, a preliminary flow sheet of two-step oxidation and extraction of Ce(IV) for Bayan Obo mixed rare earth ores was further proposed. Sulfuric acid rare earth solution containing Ce(IV) → reduces Ce 4+ to form Ce 3+ → NaOH base decomposition → HCl solubilization → Oxalic acid precipitation → Calcination.
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