Process evaluation and flowsheet development for the recovery of rare earth elements from coal and associated byproducts

Q2 Materials Science

Minerals & Metallurgical Processing Pub Date : 2017-08-01 DOI:10.19150/MMP.7610

R. Honaker, J. Groppo, R. Yoon, G. Luttrell, A. Noble, J. Herbst

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引用次数: 43

Abstract

Coal and coal byproducts produced annually contain a sufficient amount of rare earth elements (REEs) to meet current U.S. demand. The REEs exist in the form of minerals, ion-adsorbed elements associated with clays, and chemically bonded elements within the organic coal matrix or host mineral. Researchers at three universities collaborated to evaluate the effectiveness of existing physical and chemical concentration processes for the recovery of the REEs. The efforts found that physical separation processes can increase the total REE content in the thickener underflow material collected from a Central Appalachian coal cleaning facility from around 300 ppm to values greater than 17,500 ppm on an ash basis. Leaching followed by solvent extraction was found to be the most effective to recover the REEs from coarse middlings materials collected from multiple coal basins, as indicated by recovery values exceeding 80 percent. Based on material characterization data and process evaluations conducted for several potential feed coal sources, economic recovery of the REEs will require byproduct production of both clean coal and REE concentrate using a process flowsheet that is unique for each source.

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从煤及其副产品中回收稀土元素的工艺评价和流程制定

每年生产的煤和煤副产品含有足够数量的稀土元素(ree)，可以满足美国目前的需求。稀土元素以矿物、与粘土结合的离子吸附元素和有机煤基质或寄主矿物中的化学结合元素的形式存在。三所大学的研究人员合作评估了回收稀土元素的现有物理和化学浓缩过程的有效性。研究发现，物理分离过程可以将从阿巴拉契亚中部煤炭净化设施收集的浓密机底流材料中的总REE含量从300 ppm左右增加到大于17500 ppm的灰分值。从多个煤盆地收集的粗中矿中，采用浸出+溶剂萃取的方法回收稀土的效果最好，回收率超过80%。根据对几种潜在原料煤来源进行的材料表征数据和工艺评估，稀土元素的经济回收将需要使用每种来源独特的工艺流程图生产洁净煤和稀土精矿的副产品。

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来源期刊

Minerals & Metallurgical Processing 工程技术-矿业与矿物加工

CiteScore

0.84

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： For over twenty-five years, M&MP has been your source for the newest thinking in the processing of minerals and metals. We cover the latest developments in a wide range of applicable disciplines, from metallurgy to computer science to environmental engineering. Our authors, experts from industry, academia and the government, present state-of-the-art research from around the globe.