Comparative mineralogical characterization of REEs ore samples from the Mushgai Khudag and Lugiin Gol deposits, Mongolia

IF 2.6 3区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS

Chemie Der Erde-Geochemistry Pub Date : 2024-12-03 DOI:10.1016/j.chemer.2024.126223

Ni He , Xiaoyu Meng , Liang Hu , Li Shen , Sarangerel Davaasambuu , Hongbo Zhao

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引用次数: 0

Abstract

Mongolia, situated in the Central Asian orogenic belt, is characterized by geology that is highly conducive to the abundance of mineral resources, including significant rare earth elements (REEs) reserves. However, limited knowledge of the mineralogy of its deposits has hindered the development of efficient REEs extraction methods. This study presents a detailed investigation of the mineralogical characteristics of Mongolian ores and analyzes their compositions, mineral associations, liberation, and REEs concentrations via advanced analytical techniques, including the TESCAN Integrated Mineral Analyzer (TIMA). Additionally, the BCR sequential extraction method was employed to determine the binding and leaching properties of REEs. Our results revealed that the two ore samples were predominantly rich in light rare earth elements (LREEs), with REE-bearing minerals closely associated with gangue minerals such as calcite, albite, and quartz, leading to poor liberation. The extraction data indicated that >85 % of the REEs in the Mushgai Khudag deposit were retained in the residual fraction, whereas in the Lugiin Gol deposit, the majority of the REEs were associated with the reducible fraction. These findings underscore the challenges associated with extracting REEs from Mongolian deposits, which demand stringent conditions for effective recovery. This research contributes valuable insights into the complex mineralogy of Mongolian REEs deposits, offering a foundation for future advancements in REE extraction technologies.

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蒙古Mushgai Khudag和Lugiin金矿床稀土矿样品对比矿物学特征

蒙古地处中亚造山带，其地质条件非常有利于矿产资源的丰富，其中稀土元素储量巨大。然而，对其矿床矿物学的有限了解阻碍了高效稀土提取方法的发展。本研究对蒙古矿石的矿物学特征进行了详细的调查，并通过先进的分析技术，包括TESCAN集成矿物分析仪（TIMA），分析了它们的成分、矿物组合、解离和稀土浓度。此外，采用BCR顺序萃取法测定了稀土元素的结合和浸出特性。结果表明，两种矿石样品均以轻稀土元素（lree）为主，含稀土矿物与方解石、钠长石、石英等脉石矿物伴生关系密切，解离性差。提取结果表明，木盖Khudag矿床中85%的稀土元素以残余组分的形式存在，而Lugiin金矿中大部分稀土元素以可还原组分的形式存在。这些发现强调了从蒙古矿床中提取稀土的挑战，这需要严格的条件才能有效回收。该研究为进一步认识蒙古稀土矿床的复杂矿物学提供了有价值的见解，为未来稀土提取技术的发展奠定了基础。

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来源期刊

Chemie Der Erde-Geochemistry 地学-地球化学与地球物理

CiteScore

7.10

自引率

0.00%

发文量

审稿时长

3.0 months

期刊介绍： GEOCHEMISTRY was founded as Chemie der Erde 1914 in Jena, and, hence, is one of the oldest journals for geochemistry-related topics. GEOCHEMISTRY (formerly Chemie der Erde / Geochemistry) publishes original research papers, short communications, reviews of selected topics, and high-class invited review articles addressed at broad geosciences audience. Publications dealing with interdisciplinary questions are particularly welcome. Young scientists are especially encouraged to submit their work. Contributions will be published exclusively in English. The journal, through very personalized consultation and its worldwide distribution, offers entry into the world of international scientific communication, and promotes interdisciplinary discussion on chemical problems in a broad spectrum of geosciences. The following topics are covered by the expertise of the members of the editorial board (see below): -cosmochemistry, meteoritics- igneous, metamorphic, and sedimentary petrology- volcanology- low & high temperature geochemistry- experimental - theoretical - field related studies- mineralogy - crystallography- environmental geosciences- archaeometry