S. Lohmeier, B. Lottermoser, T. Schirmer, W. Fuchsloch
{"title":"用于稀有金属提取和制砖的伟晶岩尾矿的后处理潜力,纳米比亚尤伊斯","authors":"S. Lohmeier, B. Lottermoser, T. Schirmer, W. Fuchsloch","doi":"10.25131/SAJG.124.0015","DOIUrl":null,"url":null,"abstract":"Historic tin mining and mineral processing of the Uis pegmatite deposit (Namibia) has resulted in a series of tailings impoundments. In this study, Uis tailings were characterised to establish their suitability for brick manufacturing and reprocessing potential for rare metals (Be, Li, Nb, Ta). Tailings occur on-site as two distinct types (a) fine- to medium-grained sand (d50 = 120 to 420 μm) in dune-like spoil dumps; and (b) fine- to medium-grained sand (Fraction A: d50 = 120 to 410 μm; ~25% of tailings type) and fine-grained silt (Fraction B: d50 = 18 to 83 μm; ~75% of tailings type) in four low-lying dried-out waste impoundment cells. The two tailings types have a similar and homogeneous mineralogical composition, comprising quartz, plagioclase, K-feldspar and mica as well as minor cassiterite, columbite-tantalite and petalite, reflecting the micaceous quartzo-feldspathic composition of the source rocks. The main clay mineral is illite with minor (ferroan) clinochlore, cookeite and kaolinite. Such a mineralogical composition allows contemporary brick fabrication due to illite as the main clay mineral, a large proportion of quartz as a stabilizer and only trace amounts of minerals that could have a detrimental effect (e.g. Fe oxides and pyrite). Consequently, the consistent particle size distribution and homogeneous mineralogical composition allow present-day production of high-quality fired bricks from tailings. To date, the use of Uis tailings for brick manufacturing supports the local economy, aids building development and removes silica-rich mine wastes prone to dust dispersion in a remote part of Namibia. In addition, geochemical analysis of the tailings reveals strongly elevated mean concentrations of rare metals (~2 760 mg/kg Li, ~140 mg/kg Be, ~41 mg/kg Ta, ~55 mg/kg Sn, ~74 mg/kg Nb). Resource estimates suggest the presence of ~25 200 t Li2O, ~1 600 t BeO and significant Nb-Ta-Sn in impoundment cell material and a total resource of ~365 000 t Li2O and ~27 900 t BeO in bulk tailings. Thus, Uis tailings also offer the opportunity for reprocessing and extraction of rare metals.","PeriodicalId":49494,"journal":{"name":"South African Journal of Geology","volume":" ","pages":""},"PeriodicalIF":1.2000,"publicationDate":"2021-05-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Reprocessing potential of pegmatite tailings for rare metal extraction and brick fabrication, Uis, Namibia\",\"authors\":\"S. Lohmeier, B. Lottermoser, T. Schirmer, W. 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引用次数: 1
摘要
Uis伟晶岩矿床(纳米比亚)历史悠久的锡矿开采和矿物加工导致了一系列尾矿库。在本研究中,对Uis尾矿进行了表征,以确定其适用于砖块制造和稀有金属(Be、Li、Nb、Ta)的再加工潜力。尾矿以两种不同的类型出现在现场:(a)沙丘状弃土场中的细粒至中粒砂(d50=120-420μm);以及(b)四个低洼干燥废物蓄水池中的细至中粒砂(馏分A:d50=120-410μm;约25%为尾矿类型)和细粒粉土(馏分b:d50=18-83μm;75%为尾矿类型。这两种尾矿的矿物成分相似且均匀,包括石英、斜长石、钾长石和云母,以及少量锡石、铌钽铁矿和花瓣岩,反映了源岩的云母-石英-长石成分。主要粘土矿物为伊利石,含少量(铁)斜绿石、库克石和高岭石。由于伊利石是主要的粘土矿物,大量的石英是稳定剂,而且只有微量的矿物(如氧化铁和黄铁矿)可能会产生有害影响,因此这种矿物成分允许现代砖的制造。因此,一致的粒度分布和均匀的矿物成分使当今能够从尾矿中生产出高质量的烧结砖。迄今为止,在纳米比亚偏远地区,使用Uis尾矿制造砖块支持了当地经济,有助于建筑发展,并清除了易粉尘扩散的富含二氧化硅的矿山废物。此外,尾矿的地球化学分析显示,稀有金属的平均浓度显著升高(~2760 mg/kg Li,~140 mg/kg Be,~41 mg/kg Ta,~55 mg/kg Sn,~74 mg/kg Nb)。资源量估计表明,蓄水池材料中存在约25 200 t Li2O、约1 600 t BeO和大量Nb-Ta-Sn,散装尾矿中的总资源量为约365 000 t Li2O和约27 900 t BeO。因此,Uis尾矿也为稀有金属的再加工和提取提供了机会。
Reprocessing potential of pegmatite tailings for rare metal extraction and brick fabrication, Uis, Namibia
Historic tin mining and mineral processing of the Uis pegmatite deposit (Namibia) has resulted in a series of tailings impoundments. In this study, Uis tailings were characterised to establish their suitability for brick manufacturing and reprocessing potential for rare metals (Be, Li, Nb, Ta). Tailings occur on-site as two distinct types (a) fine- to medium-grained sand (d50 = 120 to 420 μm) in dune-like spoil dumps; and (b) fine- to medium-grained sand (Fraction A: d50 = 120 to 410 μm; ~25% of tailings type) and fine-grained silt (Fraction B: d50 = 18 to 83 μm; ~75% of tailings type) in four low-lying dried-out waste impoundment cells. The two tailings types have a similar and homogeneous mineralogical composition, comprising quartz, plagioclase, K-feldspar and mica as well as minor cassiterite, columbite-tantalite and petalite, reflecting the micaceous quartzo-feldspathic composition of the source rocks. The main clay mineral is illite with minor (ferroan) clinochlore, cookeite and kaolinite. Such a mineralogical composition allows contemporary brick fabrication due to illite as the main clay mineral, a large proportion of quartz as a stabilizer and only trace amounts of minerals that could have a detrimental effect (e.g. Fe oxides and pyrite). Consequently, the consistent particle size distribution and homogeneous mineralogical composition allow present-day production of high-quality fired bricks from tailings. To date, the use of Uis tailings for brick manufacturing supports the local economy, aids building development and removes silica-rich mine wastes prone to dust dispersion in a remote part of Namibia. In addition, geochemical analysis of the tailings reveals strongly elevated mean concentrations of rare metals (~2 760 mg/kg Li, ~140 mg/kg Be, ~41 mg/kg Ta, ~55 mg/kg Sn, ~74 mg/kg Nb). Resource estimates suggest the presence of ~25 200 t Li2O, ~1 600 t BeO and significant Nb-Ta-Sn in impoundment cell material and a total resource of ~365 000 t Li2O and ~27 900 t BeO in bulk tailings. Thus, Uis tailings also offer the opportunity for reprocessing and extraction of rare metals.
期刊介绍:
The South African Journal of Geology publishes scientific papers, notes, stratigraphic descriptions and discussions in the broadly defined fields of geoscience that are related directly or indirectly to the geology of Africa. Contributions relevant to former supercontinental entities such as Gondwana and Rodinia are also welcome as are topical studies on any geoscience-related discipline. Review papers are welcome as long as they represent original, new syntheses. Special issues are also encouraged but terms for these must be negotiated with the Editors.