H2-Based Processes for Fe and Al Recovery from Bauxite Residue (Red Mud): Comparing the Options

Materials Proceedings Pub Date : 2021-12-01 DOI:10.3390/materproc2021005045

S. Kapelari, P. Gamaletsos, T. Van der Donck, Y. Pontikes, B. Blanpain

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引用次数: 5

Abstract

To tackle the challenge of bauxite residue (BR), generated during the alumina production, as well as to recover some of its metal content, three combinatory H2-based processes were utilized. Firstly, Greek BR was mixed with NaOH to produce water soluble Na-aluminates and was roasted under pure H2 gas in order to reduce the Fe+3 content. Then the first process combined water leaching and magnetic separation, the second water leaching and melting and the last included wet magnetic separation. The water media resulted in the dissolution of Na-aluminate phases and the production of Al, Na-ion rich leachates. From these, pregnant leaching solutions recovery of Al was 78%, 84% and for the third case it reached 91%. Concerning Na recovery, it could reach 94%. Both melting process and magnetic separation aimed for Fe recovery from the material. The former case however still needs to be optimized, here its concept is introduced. The magnetic fraction, after the dry magnetic separation, varied in Fe content from 31.57 wt.% to 38.50 wt.%, while after the wet magnetic separation it reached 31.85 wt.%.

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从铝土矿渣(赤泥)中回收铁和铝的h2基工艺:方案比较

为了解决氧化铝生产过程中产生的铝土矿渣(BR)的挑战，并回收其部分金属含量，采用了三种组合h2基工艺。首先，将希腊BR与NaOH混合生成水溶性na -铝酸盐，并在纯H2气体下焙烧以降低Fe+3含量。第一道工序为水浸-磁选，第二道工序为水浸-熔融，最后一道工序为湿式磁选。水介质导致na -铝酸盐相的溶解，生成富Al、na离子的渗滤液。从这些浸出液中，铝的回收率为78%，84%，第三种浸出液的回收率达到91%。钠回收率可达94%。熔炼工艺和磁选工艺都旨在从材料中回收铁。但前一种情况仍需优化，这里介绍其概念。干式磁选后的磁选组分铁含量为31.57 ~ 38.50 wt.%，湿式磁选后的磁选组分铁含量为31.85 wt.%。

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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Materials Proceedings

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