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1.
四川甲基卡地区位于青藏高原东部扬子板块西缘巴颜喀拉地块,是我国重要的花岗岩型稀有金属矿成矿远景区,分布其中的甲基卡伟晶岩型稀有金属矿床是我国规模最大的固体锂矿床,形成了Li-Be-Nb-Ta等成矿系列。通过对甲基卡伟晶岩型稀有金属矿床成矿条件、含稀有金属伟晶岩脉分类、稀有元素矿物期次划分及产出特征、稀有元素品位变化规律及富集规律、矿床成因及找矿标志的分析研究,探讨了该区锂矿的成矿规律,总结出了寻找甲基卡式锂矿的一系列重要找矿标志,对矿床外围及区域其他相似地质条件地区找矿工作具有一定的指导意义。 相似文献
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铷、铯是我国战略性关键矿产资源。西藏盐湖卤水中赋存着丰富的铷、铯资源,但是品位普遍低于10 mg/L。根据热泉与盐湖锂、铷、铯等元素的补给关系和含量差异特征及铷、铯极易被黏土矿物吸附等特点,推测盐湖沉积物中赋存一定规模的铷、铯资源。为验证该推测,本文选取西藏拉果错、聂尔错、依布茶卡、当穹错、扎布耶茶卡等5个典型盐湖,采集卤水和沉积物样品各5件,开展水体中铷、铯含量和沉积物矿物成分分析,结合沉积物分相淋滤实验,得出如下结论:西藏拉果错、当穹错、聂尔错盐湖卤水铷、铯含量和资源量与其补给量差异显著,大量的铷、铯资源消耗于盐湖沉积物中;盐湖沉积物中的铷、铯含量远高于卤水。铷、铯在沉积物水溶相、碳酸盐相中含量较低,主要以吸附形式赋存于黏土矿物(主要为伊利石),吸附点位包括基面位置、难解吸的磨损边缘及层间位置。盐湖沉积物铷、铯资源量远超大型矿床规模,黏土矿物中铷、铯含量高达100 n×10-6,超过固体盐类矿产综合评价指标,相较于现有盐湖钾产品中的铷资源、含铯硅华中的铯资源开发,具有较好的开发利用性,是一种潜在的铷、铯资源。本研究成果有助于完善盐湖铷、铯富集成矿机制,并为高效开发盐湖中的铷、铯资源提供理论支撑。 相似文献
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青海锂矿成矿特征及找矿潜力 总被引:2,自引:0,他引:2
锂资源是高新产业发展的保障性资源和战略性资源之一。青海省锂矿资源丰富,锂矿床类型以盐湖卤水型储量巨大,硬岩型次之,硬岩型锂矿以伟晶岩型为主。盐湖锂矿集中分布于柴达木盆地,硬岩型主要在柴达木盆地北缘、三江北西青海段;成矿时代主要是新生代、中生代两个时期。本文通过对分布于柴达木盆地盐湖型锂矿床察尔汗盐湖、东台台吉乃尔盐湖、南翼山富钾锂卤水矿;分布于柴达木盆地北缘硬岩型的茶卡北山锂铍、三江北西青海段草陇锂铍矿五个典型矿床的赋矿特征、成矿作用及机理的探讨,建立了青海省锂矿成矿系列,在分析了区域的不同类型锂矿找矿远景基础上,认为盐湖卤水型和花岗伟晶岩型锂矿应该作为重点预测类型,并对成矿潜力进行了分析,为今后的锂矿找矿工作提供了理论依据。 相似文献
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【研究目的】近年来,新能源发展势头强劲,锂电池需求旺盛,锂矿资源争夺激烈。相比于目前主要开发的硬岩型锂矿,盐湖卤水型锂矿有着“量大、绿色、经济”的优势,随着卤水提锂工艺的不断进步,盐湖型锂矿的产能将进一步得到释放;中国是盐湖卤水型锂矿的主要分布国家之一,占世界总资源量的比例排在第五位。在世界锂资源争夺战愈演愈烈的情况下,总结盐湖卤水型锂矿的分布特征、水化学类型分类和矿物组合,估算潜在资源量以及提出评价盐湖卤水型锂矿的方法,对合理安排勘查和开发投入,以及规划国家新能源资源具有重要意义。【研究方法】搜集已公开发表或出版的盐湖卤水型锂矿资料,从分布、成矿地质条件方面分析基本特征,并对潜在资源量估算以及开发利用潜力评价进行评述。【研究结果】全球盐湖卤水型锂矿资源丰富,但分布不均,主要集中在南美安第斯高原、美国西部高原和中国青藏高原3个盐湖聚集区,其形成主要受大地构造背景、断层活动断裂以及气候海拔等条件控制。中国青藏高原盐湖卤水型锂矿资源不同于另两大盐湖聚集区的是,其构造背景属于陆陆碰撞,而非洋壳俯冲。由南到北还可进一步分为西藏和青海两个盐湖地区,青海地区镁锂比较高,不适用于传统的蒸发沉淀法,新... 相似文献
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近年,硼、锂同位素地球化学理论和分馏机理的深入,为盐湖体系硼、锂同位素示踪奠定了基础。基于现有大量研究数据,文章系统归纳盐湖体系硼、锂同位素分馏变化特征,总结盐湖演化过程硼、锂同位素组成的变化规律,建立它们的示踪方法。并以此为基础,对西藏典型富硼、锂盐湖-当雄错开展了硼同位素示踪,解决了当雄错与其物源硼同位素特征不符的难题,提出当雄错湖底蕴含大型硼、锂矿床的新认识,并预测了湖底的硼、锂资源量。根据盐湖体系硼、锂同位素地球化学特征,揭示了溶蚀湖的盐湖资源评价意义,为盐湖体系硼、锂同位素示踪和盐湖资源评价奠定理论基础。此外,借助硼同位素地球化学手段建立的当雄错“围岩-地热水-盐湖”的物源补给模式在西藏和全球具有普遍性。 相似文献
6.
中国锂矿成矿规律概要 总被引:50,自引:2,他引:48
锂资源是我国高新产业发展的保障性资源和战略性资源之一.我国锂矿资源丰富,主要集中在西藏、青海、四川和江西4省(区).锂矿床类型以硬岩型为主,盐湖锂矿虽然储量巨大,但开发利用技术尚待发展.硬岩型锂矿又以伟晶岩型为主,集中分布在新疆阿尔泰和川西甲基卡等矿集区;成矿时代以中生代最为重要;成矿大地构造背景以造山运动之后的稳定环境最具特色.本次在对全国151处锂矿矿产地资料系统梳理的基础上,深入总结了全国锂矿的成矿规律,厘定出14个以锂为主的矿床成矿系列,认为伟晶岩型、花岗岩型和盐湖沉积型3个锂矿预测类型应该作为重点预测类型,并划分出12个成锂带,圈定出5个重要勘查评价区,并编制了“中国成锂带分布图”等系列图件,为本次全国锂矿资源潜力评价预测工作和今后的找矿工作提供了理论依据. 相似文献
7.
西藏衣珠兴拉地区位于班公湖-怒江带东段,属于阿尔卑斯-喜马拉雅巨型系构造带向南转折的藏东三江地区,构造-岩浆活动强烈,具有良好的多金属矿成矿条件,是寻找铬铁、铅锌多金属矿的有利地区。依据1/5万水系沉积物测量成果研究表明:1)通过分析元素地球化学特征、元素相关性分析,认为Ag、Au、Cu、Pb、Zn、Sb等为本地区主要成矿元素;2)利用因子分析研究了元素组合特征及异常分布规律,结合成矿地质条件和已知矿床(点)信息,认为该区多金属矿化与燕山期岩浆热液成矿作用有关,具有明显的高中低温分带性;(3)划分出4处多金属矿成矿远景区,即拉桑卡-尼尼拉卡铬铁矿Ⅰ级成矿远景区、母拉同Ⅰ级成矿远景区、根达卡-曲功马Ⅱ级成矿远景区、摘龙-瓦昌达铅锌钨锡多金属成矿远景区Ⅱ级成矿远景区。 相似文献
8.
扎乌龙锂矿床地质地球物理综合研究 总被引:2,自引:1,他引:1
随着锂在当前社会经济发展中的作用越来越重要,国家对锂矿的勘查和开发也逐渐加重.笔者所在团队近年来一直在四川甲基卡锂矿区从事锂矿勘查,并取得了重大的找矿突破.由于石渠扎乌龙锂矿区地质、成矿条件与甲基卡相仿,重磁成果显示具有巨大的找矿潜力.笔者团队将甲基卡综合物探找矿经验运用到石渠扎乌龙锂矿区,针对No.14号脉先后开展了地质、物探综合调查.初步探明了 No.14号脉东西延伸及主体深部分布特征,利用电法剖面成果对其潜在资源量进行了初步估算,估算结果显示No.14号脉具有成为超大型锂矿床的潜力. 相似文献
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10.
世界盐湖卤水型锂矿特征、分布规律与成矿动力模型 总被引:3,自引:0,他引:3
卤水锂矿在世界探明的锂矿总资源量中占比达65%,由于其易于开采,成本较低,其锂盐产品占总锂盐产品的75%左右.世界卤水锂矿主要产于现代盐湖,这些盐湖分布于世界三大高原:中国青藏高原、南美西部安第斯高原和北美西部高原,形成了三大盐湖卤水锂成矿区.中国青藏高原盐湖主要包括西藏中北部和柴达木盆地盐湖,卤水锂(LiCl)资源量为2330万t;南美西部安第斯高原盐湖,涵盖玻利维亚、智利和阿根廷盐湖,锂(Li2 O)资源量为2300万t;北美西部高原盐湖卤水锂矿(Li2 O)资源量为550万t.同时,中国华南地区在中生代晚期可能也是高原环境,高原地貌孕育了大量盐湖,并形成了一些富锂卤水矿.这些高原的形成与隆升都起因于板块俯冲及陆陆碰撞:南美安第斯高原和北美西部高原是太平洋板块向美洲板块俯冲-增生造山形成的,中国青藏高原是印度板块向欧亚板块俯冲-陆陆碰撞形成的,而中国华南古高原则可能与古太平洋板块向亚洲大陆俯冲作用有关.板块俯冲及陆陆碰撞作用,一方面形成高原地貌,挡住了来自大洋的水汽,从而导致高原内部降水减少,形成干旱气候,引发强烈蒸发作用;洋壳俯冲至上地幔之后,由于脱水和部分熔融导致其中的氯、钾、锂和溴等挥发分进入岩浆并被带到地壳浅部富集;板块俯冲-碰撞作用形成大量构造盆地,同时,岩浆活动又引起大量温热泉水活动,高温水-岩反应将地壳中大量锂等成矿物质释放出来,汇入盆地并通过蒸发浓缩形成富锂盐湖.上述构造、气候和物源等成矿要素的耦合,最终导致高原盐湖卤水富锂成矿.综合世界卤水锂矿特征与成矿作用,提出盐湖卤水锂成矿动力学模式. 相似文献
11.
中国盐湖锂资源的产业化现状-以西台吉乃尔盐湖和扎布耶盐湖为例 总被引:11,自引:3,他引:8
锂对国民经济和国家安全具有重要意义, 是21世纪的能源金属。近10年, 中国主要从国外进口碳酸锂产品。中国是一个多盐湖的国家, 盐湖锂占锂资源工业总储量的85%。现代第四纪盐湖主要分布在我国西北的青海、西藏、新疆和内蒙古四省区, 具有很好的开发前景。经过多年科研后, 目前国内已经在西台吉乃尔和扎布耶两个盐湖建立了卤水提锂产业。本文对比研究了这两个盐湖资源状况和地理气候条件, 以及由此而决定的盐湖资源开发工艺流程, 探讨了其工艺优化方向。并指出这两个盐湖具有锂资源储量大, 品位高的优势, 但是受盐湖类型或地理气候条件限制, 工艺上有待改善。建议继续加强对盐湖开发技术优化和对盐湖提锂产业的扶持。 相似文献
12.
青藏高原盐湖中的锂、硼等矿产资源具有极高的经济价值.锂、硼等矿产资源的含量及其空间分布是盐湖观测的重点,对于盐湖资源的开发利用具有重要的指导意义.利用遥感技术开展盐湖观测可以克服传统观测站观测空间上数据不连续、费时费力等缺点,而机器学习等人工智能算法可以快速高效地挖掘遥感数据信息,因此本文基于Landsat-8遥感影像数据,利用LightGBM算法开展西藏扎布耶盐湖北湖锂浓度遥感反演.经过采样点波谱数据的获取、锂浓度LightGBM回归模型的构建、盐湖锂浓度反演一系列的实验步骤,最终的模型评价结果显示平均相对误差为0.053530925,均方根误差为10.2869,卡方为0.867,模型与实测数据拟合程度较高.反演结果表明:整个北湖中,锂浓度最高的是东南部的水域,最低的是中西部的水域;河流和秋里南木泉水群的汇入使得附近的水域锂浓度降低;对于本身位于中部锂浓度低值区的钙华岛来说,岛内泉水的汇入使得附近的水域锂浓度有所升高,这一结果与实际情况较为吻合.通过本文的反演研究,证明了LightGBM机器学习算法用于快速反演盐湖锂浓度的可行性和精确性,同时为其它盐湖矿产资源遥感反演提供了技术启示,也为后续的盐湖资源量评估奠定了基础. 相似文献
13.
Progress and Prospects of Salt Lake Research in China 总被引:3,自引:0,他引:3
ZHENG Mianping ZHANG Zhen KONG Weigang and LIN Yongjie ZHANG Yongsheng LIU Xifang NIE Zhen KONG Fanjing QI Wen Jia Qingxian PU Linzhong HOU Xianhu WANG Hailei 《《地质学报》英文版》2016,90(4):1195-1235
China has unique salt lake resources, and they are distributed in the east of Eurasian salt lake subzone of the Northern Hemisphere Salt Lake Zone, mainly concentrated in the regions with modern mean annual precipitation lower than 500 mm. This paper preliminarily reviews the progress made in salt lake research in China for the past 60 years. In the research of Paleoclimate and paleoenvironment from salt lake sediments, a series of salts have been proposed to be indicators of paleoclimate, and have been well accepted by scholars. The chloride-sulfate depositional regions of the west Qaidam and the east Tarim have been revealed to be the drought center of China since the Quaternary, and more than 6 spreading stages of arid climate(salt forming) have been identified. Five pan-lake periods with highstands have been proved to exist during the late Quaternary on the Tibetan Plateau. In mineral resource prospecting and theories of the forming of salt deposits: the atlas(1:2500000) of hydrochemical zoning of salt lakes on the Tibetan Plateau has been compiled for the first time, revealing the zonal distribution and transition from carbonate type to chloride type from south to north and presenting corresponding mineral assemblages for different type of salt lakes; several large continental salt deposits have been discovered and the theory of continental potash deposition has been developed, including the salt deposition in deep basins surrounded by high mountains, the mineral deposition from multistage evolution through chains of moderate or shallow lakes with multilevels, the origin of potassium rich brines in gravel layers, and the forming of potassium deposits through the inheriting from ancient salt deposits, thus establishing the framework of "Continental Potash Deposition Theory"; several new types of Mg-borate deposits have been discovered, including the ulexite and pinnoite bed in Da Qaidam Lake, Qinghai, the pinnoite and kurnakovite bed in Chagcam Caka, Tibet, the kurnakovite bed in Lake Nyer, and the corresponding model of borate deposition from the cooling and dissolution of boron rich brines was proposed based on principles of geology, physics and chemistry. The anti-floatation-cold crystallization method developed independently has improved the capacity of KCl production to 3 million tons per year for the Qarham, serving the famous brand of potash fertilizer products. One 1.2 million ton K-sulfate production line, the biggest in the world, has been built in Lop Nor, and K-sulfate of about 1.6 million tons was produced in 2015. Supported by the new technology, i.e. brine preparation in winter-cooling-solarization-isolation-lithium deposition from salt gradient solar pond" the highest lithium production base at Zabuye Lake(4421 m), Tibet, has been established, which is the first lithium production base in China that reaches the year production of 5000 tons of lithium carbonate. The concept of Salt lake agriculture(Salt land agriculture) has been established based on the mass growth of Dunaliella and other bacillus-algae and the occurrence of various halophytes in saltmarsh and salt saline-alkali lands, finding a new way to increase arable lands and develop related green industry in salt rich environments. Finally this paper presents some new thoughts for the further research and development on salt science, and the further progress in salt science and technology will facilitate the maturing of the interdisciplinary science "Salinology". 相似文献
14.
西藏地区盐湖锂资源的开发现状 总被引:15,自引:0,他引:15
随着国外锂盐生产逐渐转向盐湖提锂,我国急需加强盐湖锂资源的开发.西藏地区盐湖锂资源储量丰富,主要分布在扎布耶湖、班戈-杜佳里湖、扎仓茶卡等盐湖中.其中扎布耶盐湖经过十余年的开发研究,目前已找到一条适合该湖自然条件的锂资源工艺开发路线.班戈-杜佳里湖近期刚开始进行试验,表现出良好的发展前景.开发中需坚持综合利用的原则,同时可以利用西藏丰富的太阳能和盐湖资源建立盐湖太阳池系统,为资源开发提供能源支持. 相似文献
15.
《地学前缘(英文版)》2023,14(1):101485
The demand for lithium resources is increasing sharply with the rapid development of electric vehicles. It is of great economic significance to expand the geological resources of lithium and improve the utilization rate of lithium-containing salt lakes. In this paper, the hydrochemical types of the lithium-containing salt lakes in the Tibet Plateau were classified according to a large amount of hydrochemical data obtained from a recent investigation on the Tibet Plateau. In addition, the lithium extraction methods used in the salt lakes within each hydrochemical type area were analyzed and summarized, which provided a reference for the selection of lithium extraction processes in the same hydrochemical type of lithium-containing salt lakes in the future. The binding energies of Li(Ι) and anions in salt lakes with different hydrochemical types were calculated by density functional theory, which provides the theoretical basis for selecting the best lithium extraction technology in different salt lakes. We emphasize that the process with the combined characteristics of high efficiency, economy and environmental protection should be selected according to the hydrochemical type of different salt lakes. In the future, different salt lakes should focus on direct lithium extraction technology from the original brine. 相似文献
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盐湖硼、锂、锶、氯同位素地球化学研究进展 总被引:5,自引:1,他引:4
盐湖作为盐矿资源的重要载体和富集区,探讨其矿物质来源及富集规律,不仅为盐湖的形成、演化及成盐成矿规律研究奠定了基础,也为盐湖资源评价及合理的开发利用提供了科学依据,具有重要的理论和现实意义。近年来,随着同位素地球化学的发展,同位素在盐湖领域的研究成果也日益丰富,使盐湖研究的深度和广度也得到快速发展。文章简要概述了硼、锂、锶、氯同位素的分馏机理及其在盐湖研究领域的发展历程,重点介绍了国内外取得的主要成果和最新进展,探讨了存在的问题,以促进硼、锂、锶、氯同位素地球化学研究在中国盐湖领域的进一步发展。 相似文献
18.
麻米错盐湖是西藏境内发育的特大型锂矿床之一,目前对该盐湖的Li、B来源仍存在一定争议。文章系统采集麻米错盐湖水及周边补给水体样品,分析其主量元素特征,并使用多种水化学手段进行讨论,同时对盐湖水、河水及地热水进行蒸发模拟。结果表明,研究区河水及泉水中的主要离子受控于流域内岩石风化作用,其中碳酸盐岩矿物与蒸发岩矿物贡献最大,其次是硅酸盐矿物。文章对补给水体输入盐湖的Li、B资源进行定量计算,得出单纯通过河水和泉水的输入无法形成盐湖目前的探明储量。选择西藏地区最为富Li的地热水同补给水体按照一定比例混合后进行蒸发模拟,发现其析盐序列与盐湖水的析盐序列存在很大程度上的重叠,以上均证明麻米错盐湖中的Li、B资源除受到周边河水及泉水的补给外,还受到地热水的补给。 相似文献
19.
A review of Australian salt lakes and associated mineral systems 总被引:1,自引:0,他引:1
T. P. Mernagh E. N. Bastrakov S. Jaireth P. de Caritat P. M. English J. D. A. Clarke 《Australian Journal of Earth Sciences》2016,63(2):131-157
This study reviews the available information for over 1200 Australian salt lakes including in areas that have little or unreliable data. Publicly available groundwater hydrogeochemical datasets for the Australian arid zone are particularly sparse, inconsistent and of variable quality. Many datasets in the vicinity of salt lakes only report salinity or total dissolved solids, with no data for constituent cations and anions, and no appreciation of the hydrological and geomorphic evolution of the lakes. To overcome these limitations and to provide a broad-scale context, we developed mineral systems models to assess the potential of Australian salt lakes for potash, lithium and boron deposits. These models show that an important control on the potential of salt lake systems to form economic deposits of potash, lithium or boron is hydrogeological connectivity between leachable source rocks and the lakes. The assessment of the mineral potential was carried out in two stages. The first stage selection was based on the presence of favourable source rocks in the salt lakes’ catchments. The mean values of concentration in each catchment were derived from whole rock, sediment and groundwater geochemical datasets by averaging the values in samples (separately for each of the three datasets) located in the catchment and assigning this value to the catchment's salt lakes. The second stage selection was carried out by analysing available chemical data of groundwater in proximity to the salt lake systems delineated in the first stage. As a result, six regions were identified as having the highest potential, for potash in particular, but also for lithium and/or boron deposits. These are: the Lake Frome/Central Gawler Region of South Australia; two regions in the Northern Territory: the central western region extending into Western Australia, and the Lake Woods region; and, in Western Australia, the Lake Disappointment region, the north east Yilgarn and south east Yilgarn regions. 相似文献