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Erschienen in:
Role of Research in Non-ferrous Metallurgy Development—Peter Hayes’ Contributions to Modern Pyrometallurgy Kapitel lesen Erstes Kapitel lesen

2018 | OriginalPaper | Buchkapitel

Study of the Deportment of REEs in Ion Adsorption Clays Towards the Development of an In Situ Leaching Strategy

verfasst von : Cody Burcher-Jones, Sfiso Mkhize, Megan Becker, Rahul Ram, Jochen Petersen

Erschienen in: Extraction 2018

Verlag: Springer International Publishing

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Abstract

The recovery of rare earth elements (REEs) through heap leach/in situ techniques from so-called ion adsorption clays (IACs) is attractive due to their inherent simplicity. However, the underlying mechanisms of these processes are poorly understood. In this study, the deportment of REEs in a typical IAC material has been investigated and was found to concentrate in the phyllo-layers of the clays, especially hallyosite, and was readily desorbed by various ion-exchange reagents indicating various potential routes to liberate them. Here we are reporting the use of seawater (0.5 M NaCl), spiked with various amounts of (NH4)2SO4, and found better extraction using a reagent mixture than NaCl on its own. Further, the leaching of REEs from a bed of clay material was investigated over time to understand the rate of transport through the stagnant material. Results indicate that REE release is likely to be controlled by diffusion through the clay material, while desorption in agitated systems is rapid. A degree of fractionation between different REEs can be observed during diffusion. Nonetheless, the successful operation of in situ leach operations for this type of material would depend primarily on how easily solution cocktails can be made to flow through the bed material.

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Vorheriges Kapitel Hydrothermal Modification of Phosphogypsum to Improve Subsequent Recovery of Rare Earths
Nächstes Kapitel Thermodynamics of Tungsten Ores Decomposition Process Options
Literatur
1.
Wübbeke J (2013) Rare earth elements in China: policies and narratives of reinventing an industry. Resour Policy 38:384–394CrossRef
2.
Golev A, Scott M, Erskine PD, Ali SH, Ballantyne GR (2014) Rare earths supply chains: current status, constraints and opportunities. Resour Policy 41:52–59CrossRef
3.
Adachi G, Imanaka N, Tamura S (2010) Research trends in rare earths: a preliminary analysis. J Rare Earths 28(6):843–846CrossRef
4.
Kanazawa Y, Kamitani M (2006) Rare earth minerals and resources in the world. J Alloy Compd 408:1339–1343CrossRef
5.
Yang JJ, Lin A, Li XL, Wu Y, Zhou W, Chen Z (2013) China’s ion-adsorption rare earth resources, mining consequences and preservation. Environ Dev 8:131–136CrossRef
6.
Papangelakis VG, Moldoveanu G (2014), Recovery of rare earth elements from clay minerals. In: ERES2014: 1st European rare earth resources conference, Milos Greece, pp 91–202
7.
Chi R, Tian J (2008) Weathered crust elution-deposited rare earth ores. Nova Science Publishers, NY
8.
Moldoveanu G, Papangelakis V (2012) Recovery of rare earth elements adsorbed on clay minerals: I. desorption of mechanism. Hydrometallurgy 117–118:71–78CrossRef
9.
Moldoveanu G, Papangelakis V (2013) Recovery of rare earth elements adsorbed on clay minerals: II. leaching with ammonium sulphate. Hydrometallurgy 131–132:158–166CrossRef
10.
Moldoveanu G, Papangelakis V (2016) An overview of rare-earth recovery by ion-exchange leaching from ion-adsorption clays of various origins. Mineral Mag 80:63–76CrossRef
11.
Vahidi E, Navarro J, Zhao F (2016) An initial life cycle assessment of rare earth oxides production from ion-adsorption clays. Resources. Conserv Recycl 113:1–11CrossRef
12.
13.
Petersen J (2016) Heap Leaching as a key technology for recovery of values from low-grade ores–a brief overview. Hydrometallurgy 165:206–212CrossRef
14.
Burcher Jones CO (2018) Mineralogical and ion-exchange leaching study of a Rare Earth Element (REE) bearing ion-adsorption clay deposit. MSc thesis, University of Cape Town
15.
Joussein E, Petit S, Delvaux B (2007) Behaviour of halloysite clay under formamide treatment. Appl Clay Sci 35:17–24CrossRef
16.
Sanematsu K, Kon Y (2013) Geochemical characteristics determined by multiple extraction from ion-adsorption type REE ores. Bull Geol Surv Jpn 64:313–330CrossRef
17.
Petersen J (1998) Assessment and modelling of chromium release from minerals processing waste deposits. PhD thesis, University of Cape Town
18.
Ohta A, Kawabe I (2001) REE (III) adsorption onto Mn dioxide (δ-MnO2) and Fe oxyhydroxide: Ce (III) oxidation by δ-MnO2. Geochim Cosmochim Acta 65:695–703CrossRef
19.
Spark K, Wells J, Johnson B (1995) Characterizing trace metal adsorption on kaolinite. Eur J Soil Sci 46:633–640CrossRef
Metadaten
Titel
Study of the Deportment of REEs in Ion Adsorption Clays Towards the Development of an In Situ Leaching Strategy
verfasst von
Cody Burcher-Jones
Sfiso Mkhize
Megan Becker
Rahul Ram
Jochen Petersen
Copyright-Jahr
2018
Buch
Extraction 2018

Print ISBN: 978-3-319-95021-1

Electronic ISBN: 978-3-319-95022-8

Copyright-Jahr: 2018

DOI
https://doi.org/10.1007/978-3-319-95022-8_205

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