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Determining the possibility of using the Polish aggregates for recovery of rare earth elements

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EN
Abstrakty
EN
The high and constantly growing interest in Rare Earth Elements (REE) results from their desirable properties that are required in the state-ofthe- art technologies. These elements are widely distributed in nature but most often found in low concentrations. Poland's resources are limited to a few poor deposits. KOMAG has started research projects aimed at extending the knowledge about the content of REE in Polish raw materials. Five Polish natural aggregates were selected for testing. The method of mass spectrometry with inductively coupled plasma ionization (ICP-MS) were used for analyses. Content of REE in the tested materials was found to be in the range of 190.0-14.8 ppm. Basalt aggregate marked with number 1 and halloysite had the highest content, and the lowest content was in the granite aggregate and sand marked with number 2. Then, the grain class 0.045-0 mm was separated to determine REE content in fine grains of materials. The test results indicate different proportions between light and heavy REE in the samples of the tested materials.
Czasopismo
Rocznik
Tom
Strony
34--43
Opis fizyczny
Bibliogr. 33 poz., wykr., tab.
Twórcy
  • KOMAG Institute of Mining Technology, Pszczyńska 37, 44-101 Gliwice, Poland
Bibliografia
  • [1] King H., https://geology.com/articles/rare-earth-elements/ [access: 30.04.2020]
  • [2] P. Koltun, A. Tharumarajah; Life Cycle Impact of Rare Earth Elements, ISRN Metallurgy 2014, pp. 1-10
  • [3] Jordens A., Cheng Y., Waters K.:A review of the beneficiation of rare earth element bearing minerals, Minerals Engineering 41/2013, pp. 97-114
  • [4] Gupta C., Krishnamurthy N.: Extractive metallurgy of rare earths, International Materials Reviews 37(1)/1992, pp. 197-248
  • [5] Sanematsu K., Moriyama T., Sotouky L., Watanabe Y.: Mobility of Rare Earth Elements in Basalt-Derived Laterite at the Bolaven Plateau, Southern Laos, Resource Geology 61(2)/2011, pp. 140-158
  • [6] Friebe P., Tests of Neodymium Content in Selected Materials, Mining Machines 162/2020, pp. 38–47
  • [7] Baron R.: Determination of rare earth elements in power plant wastes. Mining Machines 4/2020. pp. 24-30
  • [8] Baron R.: Determination of rare earth elements content in hard coal type 31.1. Management Systems in Production Engineering 4/2020. pp. 240-246
  • [9] Góralczyk S., Kukielska D.: Jakość krajowych kruszyw, Górnictwo i Geoinżynieria 34(4)/2010, pp. 211-224
  • [10] Kozioł W., Machniak Ł., Borcz A., Baic I.: Górnictwo kruszyw w Polsce – szanse i zagrożenia, Inżynieria mineralna 17(2)/2016, pp. 175-182
  • [11] Kozioł W., Ciepliński A., Machniak Ł., Borcz A.: Kruszywa w budownictwie. Cz. 1. Kruszywa naturalne, Nowoczesne Budownictwo Inżynieryjne, 4(61)/2015, s. 98-100
  • [12] Ganguli R., Cook D.: Rare earths: A review of the landscape, MRS Energy & Sustainability 5(1)/2018
  • [13] Gupta C., Krishnamurthy N.: Extractive metallurgy of rare earths. Boca Raton: CRC 2005, pp. 73-77
  • [14] Turlin F., André-Mayer A., Moukhsil A., Vanderhaeghe O., Gervais F.: Unusual LREE-rich, peraluminous, monazite- or allanite-bearing pegmatitic granite in the central Grenville Province, Québec, Ore Geology Reviews 89/2017, pp. 627-667
  • [15] Encyclopeadia Britannica, https://www.britannica.com/science/bastnaesite [access: 09.10.2019]
  • [16] Broska I., Kubiš M., Williams C., Konečný P.: The compositions of rock-forming and accessory minerals from the Gemeric granites, Bulletin of the Czech Geological Survey 77/2002, pp. 147-155
  • [17] René M.: REE and Y Mineralogy of the Krudum Granite Body, Minerals 8(7)/2018
  • [18] Mckeough M., Lentz D., Mcfarlane Ch., Brown J.: Geology and evolution of pegmatite-hosted U–Th ± REE–Y–Nb mineralization, Kulyk, Eagle, and Karin Lakes region, Wollaston Domain, northern Saskatchewan, Canada: examples of the dual role of extreme fractionation and hybridization processes, Journal of Geosciences 58/2013, pp. 321-346
  • [19] Overstreet W., The Geologic Occurrence Of Monazite, U.S. Govt. Print. Off. 1967, pp. 38-42
  • [20] https://geology.com/minerals/monazite.shtml [access: 30.03.2019]
  • [21] Yaraghi A., Ariffin K., Baharun N., A Short Review on REE Recovey from Ion-Adsorption Clay, Aspects in Mining and Mineral Science, vol. 2(5)/2019
  • [22] Gao Y., Fan Ch., Xu H.: Experimental study on adsorption of rare earth elements on kaolinite and halloysite, Acta geologica sinica 91/2017, pp. 80-82
  • [23] http://nevada-outback-gems.com/mineral_information/Xenotime_mineral_info.htm [access: 19.06.2019]
  • [24] Sibon M., Jamil H., Umor M., Hassan W.: Heavy mineral distribution in stream sediment of tapah Area, in Proc. AIP Conference Proceedings 1571 411/2013, pp. 411-419
  • [25] Verplanck P., Hitzman M.: Rare Earth and Critical Elements in Ore Deposits, Ore Geology Reviews, vol 81(1)/2017, pp. 396-399
  • [26] Ghaffar A.: Enrichment of rare earth and radioactive elements concentration in accessory phases from alkaline granite, South Sinai- Egypt, Journal of African Earth Science 147/2018, pp. 393-401
  • [27] Tanaka T.: Geological significance of rare earth elements in Japanese geosynclinals basalts, Contributions to Mineralogy and Petrology 52/1975, pp. 233-246
  • [28] Frey F., Haskin M., Poetz J., Haskin L.: Rare Earth abundances in some basic rocks, Journal of Geophysical Research 73/1968, pp. 6085-6098
  • [29] Zhang Y., Yu K., Qian H.: LA-ICP-MS Analysis of Clinopyroxenes in Basaltic Pyroclastic Rocks from the Xisha Islands, Northwestern South China Sea, Minerals 8(12)/2018, pp. 575
  • [30] Adamczyk Z., Białecka B., Całus-Moszko J., Komorek J, Lewandowska M.: Rare earth elements of Orzeskie beds of south-west part Upper Silesian Coal Basin (Poland), Archives of Mining Sciences 60/2015, pp. 157-172
  • [31] P. Friebe: Separacja minerałów zawierających pierwiastki ziem rzadkich, materiały niepublikowane ITG KOMAG 2018
  • [32] Cavalcante F., Belviso C., Piccarreta G., Fiore S.: Grain-Size Control on the Rare Earth Elements Distribution in the Late Diagenesis of Cretaceous Shales from the Southern Apennines (Italy), Journal of Chemistry 2014, pp. 1-11
  • [33] https://www.britannica.com/science/rare-earth-element/Preparation-of-the-metals [access: 30.04.2020]
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f34c9839-9949-4f18-bde6-1e7078b6f528
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