Enrichment of Rare Earth Elements Contained in Coal Ashes from Korea Circulating Fluidized Bed Combustion (CFBC)

Journal of the Korean Institute of Resources Recycling Pub Date : 2020-12-01 DOI:10.7844/KIRR.2020.29.6.125

Young-Jin Kim, Moon-Kwan Choi, Jun-hyung Seo, Byung-Ryeol Kim, Kye-Hong Cho

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Abstract

Enrichment possibilities for recovering rare earth elements contained in coal bottom ash generated from domestic circulating fluidized bed combustion (CFBC) were identified. The transport characteristics of the REEs according to the separation and removal of major minerals were evaluated using sieving and leaching process. The main minerals of bottom ash were identified as anhydrite, magnetite, and quartz, and this was confirmed as a 30% of REE content of the world's average coal ash REE value (404 ppm) as a result of the difference in the combustion characteristics of power plants (REE contents in starting material: 123 ppm). More than 90% of the REEs contained in the bottom ash were found to move mainly with magnetite, and less than 10% of the components were found to move with the quartz. Therefore, In order to recover rare earth elements from coal bottom ashes generated from CFBC boiler, it is necessary to select the main rare elements such as magnetite and develop a pretreatment and concentration process.

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韩国循环流化床燃烧煤灰中稀土元素的富集研究

确定了回收国内循环流化床燃烧(CFBC)产生的煤灰中稀土元素的富集可能性。采用筛分浸出工艺评价了稀土元素在主要矿物分离和去除过程中的输运特征。确定底灰的主要矿物为硬石膏、磁铁矿和石英，由于电厂燃烧特性的差异(起始物料REE含量:123 ppm)，确定其REE含量占世界平均煤灰REE值(404 ppm)的30%。底灰中90%以上的稀土元素主要随磁铁矿移动，随石英移动的稀土元素不到10%。因此，为了从CFBC锅炉产生的煤底灰中回收稀土元素，有必要对磁铁矿等主要稀土元素进行筛选，并开发预处理富集工艺。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of the Korean Institute of Resources Recycling

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