Phase associations and potential selective extraction methods for selected high-tech metals from ferromanganese nodules and crusts with siderophores |
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| Institution: | 1. Geological Survey of Spain, (IGME), C/Ríos Rosas, 23, 28003 Madrid, Spain;2. Crystallography and Mineralogy Department, Complutense University of Madrid, C/Jose Antonio Novais, 2, 28040 Madrid, Spain;3. Instituto de Geociencias IGEO (CSIC, UCM), Madrid, Spain;4. Instituto Español de Oceanografía, C.O. de Málaga, Puerto Pesquero s/n, 29649 Fuengirola, Spain;1. Center for Marine Core Research Institute, Kochi University, Japan;2. Institute for Industrial Science, University of Tokyo, Japan;3. R & D Center for Marine Resources, JAMSTEC, Japan;4. Metals Exploration Dept., JOGMEC, Japan;5. Division of Chemistry, Tsukuba University, Japan;6. Geological Survey of Japan, National Inst. Advanced Industrial Science and Technology (AIST), Japan;7. Tokyo University of Pharmacy and Life Sciences, Japan;8. Emeritus Professor, University of Tokyo, Japan |
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| Abstract: | Deep-sea ferromanganese deposits contain a wide range of economically important metals. Ferromanganese crusts and nodules represent an important future resource, since they not only contain base metals such as Mn, Ni, Co, Cu and Zn, but are also enriched in critical or rare high-technology elements such as Li, Mo, Nb, W, the rare earth elements and yttrium (REY). These metals could be extracted from nodules and crusts as a by-product to the base metal production. However, there are no proper separation techniques available that selectively extract certain metals out of the carrier phases. By sequential leaching, we demonstrated that, except for Li, which is present in an easily soluble form, all other high-tech metals enriched in ferromanganese nodules and crusts are largely associated with the Fe-oxyhydroxide phases and only to subordinate extents with Mn-oxide phases. Based on this fact, we conducted selective leaching experiments with the Fe-specific organic ligand desferrioxamine-B, a naturally occurring and ubiquitous siderophore. We showed by leaching of ferromanganese nodules and crusts with desferrioxamine-B that a significant and selective extraction of high-tech metals such as Li, Mo, Zr, Hf and Ta is possible, while other elements like Fe and the base metals Mn, Ni, Cu, Co and Zn are not extracted to large extents. The set of selectively extracted elements can be extended to Nb and W if Mn and carbonate phases are stripped from the bulk nodule or crust prior to the siderophore leach by e.g. a sequential leaching technique. This combination of sequential leaches with a siderophore leach enhanced the extraction to 30–50% of each Mo, Nb, W and Ta from a mixed type Clarion-Clipperton Zone (CCZ) nodule and 40–80% from a diagenetic Peru Basin nodule, whilst only 5–10% Fe and even less Mn are extracted from the nodules. Li is extracted to about 60% from the CCZ nodule and a maximum of 80% Li is extracted from the Peru Basin nodule.Our pilot work on selective extraction of high-tech metals from marine ferromanganese nodules and crusts showed that specific metal-binding organic ligands may have promising potential in future processing technologies of these oxide deposits. |
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