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Characterization of a carbonatite-derived mining tailing for the assessment of rare earth potential

Shuronjit Kumar Sarker, Warren J. Bruckard, Nawshad Haque, Rajeev Roychand, Muhammed A. Bhuiyan, Biplob Kumar Pramanik

2023Process Safety and Environmental Protection23 citationsDOIOpen Access PDF

Abstract

Depletion of high-grade deposits of rare earth elements (REEs) has led to increased interest in reprocessing mining tailing, particularly from carbonatite-related deposits. This is because most of the world’s REEs are produced from such deposits. The objective of this study was to physically, geochemically, and mineralogically characterize a carbonatite-related tailing from an Australian mine site to assess the REEs recovery potential. The tailing sample sourced from the mine site was analyzed by dry screening, laser particle size analysis, X-ray fluorescence (XRF), X-ray diffraction (XRD), Inductively Coupled Plasma Mass Spectrometry, and Scanning Electron Microscopy-Energy Dispersive Spectroscopy (SEM-EDS). The results revealed that tailing consisted of mainly fine particles with 50 wt% below 61 µm. The geochemical results showed that the tailing consisted mainly of iron (Fe), and REE accounted for over 50% and 9% of the mass, respectively. The identification of major mineral phases by XRD followed by verification by SEM-EDS found monazite and florencite were the main REE-bearing minerals. The main gangue mineral is identified as goethite. The metallurgical balance showed that over 70% of the mass, REE, and Fe were concentrated in finer particle fractions below 63 µm. The SEM-EDS-based mineral liberation analysis found that REE-minerals were primarily associated with goethite and were locked within the latter in larger particle sizes over 100 µm. However, the smaller (<50 µm) REE-mineral grains were mostly liberated. The findings of this study suggest that light grinding of the particle fractions above 63 µm would potentially liberate the locked REE-minerals and subsequent separation by gravity, magnetic, and flotation processes can be tested to make REE concentrate. Because the sample is fine-grained, direct hydrometallurgical processing could potentially be effective to recover REE from this tailing.

Topics & Concepts

CarbonatiteMonaziteGoethiteGangueMineralTailingsHematiteSideriteInductively coupled plasma mass spectrometryMineralogyParticle sizeScanning electron microscopeDolomiteGeologyChemistryMetallurgyMass spectrometryMaterials scienceGeochemistryCalciteZirconChromatographyComposite materialOrganic chemistryPaleontologyMantle (geology)AdsorptionExtraction and Separation ProcessesGeochemistry and Elemental AnalysisRadioactive element chemistry and processing
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