Mineralogy and geochemistry of rare metal (Zr-Nb-Hf-Ta-REE-Ga) coals of the seam XXX of the Izykh Coalfield, Minusinsk Basin, Russia: Implications for more widespread rare metal mineralization in North Asia

IF 5.6 2区 工程技术 Q2 ENERGY & FUELS
A.V. Vergunov , S.I. Arbuzov , D.A. Spears , A.S. Kholodov , S.S. Ilenok
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引用次数: 0

Abstract

This study focuses a comprehensive mineralogical and geochemical study of rare-metal (Zr-Nb-Hf-Ta-REE-Ga) mineralization in the Permian coal seam XXX-XXXa of the Izykh Coalfield, Minusinsk Basin, southern Siberia. A link is demonstrated between the accumulation of rare metals in the coal with a volcanogenic rock parting up to 45 cm thick separating the coal seams. The floor of seam XXX is also characterized by the presence of pyroclastic material, which affects the level of accumulation of rare elements in the coal of the seam. Coals and intra-seam rock partings in seam XXX-XXXa have abnormally high concentrations of Zr, Nb, Hf, Ta, REE and Ga. In coal ash samples, the contents of some elements are highly evaluated, e.g., 1.4% Zr, 0.26% Nb, 164 ppm Hf, 17.9 ppm Ta, 0.8% REE, 0.13% Y, and 226 ppm Ga. The concentration of rare elements is higher in the coal and coal ash of the XXX coal seam than in the XXXa coal seam. The accumulation of anomalous concentrations of Zr-Nb-Hf-Ta-REE and Ga is mostly specific for the rock parting between the XXX and XXXa seams, as well as for the coals in contact with this parting. Zirconium, Nb, Y, and REE form more contrasting halos near the parting compared to Ta, Hf, and Ga. This is explained by the different mobility of the elements under weathering and diagenetic conditions. Other ore elements are concentrated to a greater extent in the coal in the near-contact zone, as well as at a distance from the partings. Ore material is concentrated primarily in the fine-dispersed mineral phase represented mainly by Zr-Nb-Ti-Fe oxides, complex Nb-Zr-P silicates, and REY-bearing phosphates (monazite, xenotime). Volcanogenic pyroclastics of acidic and alkaline composition (rhyolite-pantellerite) influenced the accumulation of rare metals in coal. Volcanic ash, transported from a distant source, served as the raw material for the formation of the rock interlayer in coal. The composition of this volcanic ash is believed to correspond to a pantelleritic tuff. These findings are comparable to those reached in earlier work on the altered ash in the coal seam XI of the Kuznetsk Coal Basin, which has similar geochemical features and is also of Permian age. Complex Zr-Nb-Hf-Ta-REE-Ga mineralization in the coals of the Kuznetsk and Minusinsk basins, associated with volcanogenic pyroclastics, indicates a wide manifestation of active acid and alkaline volcanism during the formation of coal deposits and the possibility of identifying similar mineralization in Permian coals of East and North Asia.

Abstract Image

俄罗斯米努辛斯克盆地 Izykh 煤田 XXX 煤层稀有金属(Zr-Nb-Hf-Ta-REE-Ga)煤的矿物学和地球化学:对北亚更广泛稀有金属矿化的影响
本研究的重点是对西伯利亚南部米努辛斯克盆地 Izykh 煤田 XXX-XXXa 二叠纪煤层中的稀有金属(Zr-Nb-Hf-Ta-REE-Ga)矿化进行全面的矿物学和地球化学研究。煤炭中稀有金属的积累与煤层之间厚达 45 厘米的火山岩分隔之间存在联系。XXX 煤层底板的另一个特点是存在火成岩物质,这影响了煤层煤中稀有元素的积累水平。XXX-XXXa 煤层的煤炭和层内岩屑中 Zr、Nb、Hf、Ta、REE 和 Ga 的含量异常高。在煤灰样本中,某些元素的含量评估较高,例如 Zr 含量为 1.4%,Nb 含量为 0.26%,Hf 含量为 164 ppm,Ta 含量为 17.9 ppm,REE 含量为 0.8%,Y 含量为 0.13%,Ga 含量为 226 ppm。XXX 煤层的煤和煤灰中稀有元素的浓度高于 XXXa 煤层。Zr-Nb-Hf-Ta-REE 和 Ga 的异常浓度积累主要是 XXX 煤层和 XXXa 煤层之间的岩石分层以及与该分层接触的煤炭所特有的。与 Ta、Hf 和 Ga 相比,锆、Nb、Y 和 REE 在分块附近形成的对比晕更强烈。这是因为这些元素在风化和成岩条件下具有不同的流动性。其他矿石元素则更多地集中在近接触区的煤中,以及距离分块较远的地方。矿石物质主要富集在细微分散的矿物相中,主要由 Zr-Nb-Ti-Fe 氧化物、复合 Nb-Zr-P 硅酸盐和含 REY 的磷酸盐(独居石、氙钛)组成。酸性和碱性成分的火山成因火成岩(流纹岩-辉绿岩)影响了煤中稀有金属的积累。从远处运来的火山灰是形成煤中岩石夹层的原料。这种火山灰的成分被认为与泛辉石凝灰岩相符。这些发现与早先对库兹涅茨克煤盆地 XI 煤层中的蚀变火山灰的研究结果相当,后者具有类似的地球化学特征,也属于二叠纪。库兹涅茨克和米努辛斯克盆地煤炭中复杂的 Zr-Nb-Hf-Ta-REE-Ga 矿化与火山成因的火成岩有关,这表明在煤炭矿床形成过程中活跃的酸性和碱性火山活动的广泛表现,以及在东亚和北亚二叠纪煤炭中发现类似矿化的可能性。
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来源期刊
International Journal of Coal Geology
International Journal of Coal Geology 工程技术-地球科学综合
CiteScore
11.00
自引率
14.30%
发文量
145
审稿时长
38 days
期刊介绍: The International Journal of Coal Geology deals with fundamental and applied aspects of the geology and petrology of coal, oil/gas source rocks and shale gas resources. The journal aims to advance the exploration, exploitation and utilization of these resources, and to stimulate environmental awareness as well as advancement of engineering for effective resource management.
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