High Temperature Treatment of Selected Iron Rich Bauxite Ores to Produce Calcium Aluminate Slags

Materials Proceedings Pub Date : 2021-11-30 DOI:10.3390/materproc2021005036

A. Lazou, C. van der Eijk, Michail Vafeias, Amalia Bempelou, E. Balomenos, L. Kolbeinsen, D. Panias, J. Safarian

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引用次数: 2

Abstract

The Pedersen process is a method to produce alumina from Al-containing sources, and it is a more material-efficient method than the current commercial Bayer process, since the formation of bauxite residue (red mud) is avoided, and the bauxite can be holistically consumed. The smelting reduction (SR) part of the Pedersen process yields pig iron and a calcium aluminate slag, and the latter is a feedstock material for alumina extraction via alkaline leaching. In the present study, three different bauxite ores (Greek, Turkish and Jamaican) were smelted with lime to ease the process and control the slag chemistry and coke for the carbothermic reduction of iron oxides. The slags produced were analyzed with XRD, XRF, and EPMA to identify the phases and chemical compositions. According to the results, the slags composed of Al-containing leachable phases. Moreover, it is shown that the amount and distribution of both the leachable and non-leachable phases in the slags depend on the ore chemical composition. The results are discussed regarding the characteristics and potential leachability of the slags. Standard leaching tests were performed to examine the actual leachability.

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精选富铁铝土矿石高温处理制备铝酸钙渣

Pedersen工艺是从含铝源生产氧化铝的一种方法，由于避免了铝土矿渣(赤泥)的形成，并且铝土矿可以整体消耗，因此它比目前的商业拜耳工艺更节省材料。Pedersen工艺的冶炼还原(SR)部分产生生铁和铝酸钙渣，后者是通过碱浸法提取氧化铝的原料。在本研究中，三种不同的铝土矿矿石(希腊，土耳其和牙买加)用石灰冶炼，以简化过程和控制渣化学和焦炭的碳热还原氧化铁。采用XRD、XRF、EPMA等分析方法，确定了渣的物相和化学成分。结果表明，渣由含铝可浸相组成。此外，渣中可浸出相和不可浸出相的数量和分布取决于矿石的化学成分。研究结果还讨论了渣的特性和潜在的可浸性。进行标准浸出试验以检验实际的浸出能力。

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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