Using X-ray absorption spectroscopy, we have identified the mechanism by which chloride impacts the extraction of U(VI) by a weak base anion exchange resin from acidic sulfate solutions. The amount of chloride present affects U(VI) speciation both in the feed solutions and adsorbed by the resin, and we find three distinct U(VI) species taken up by the resin across the salinity gradient, directly corresponding to changes in levels of U(VI) extraction. These findings are integral to the effective design of mineral processing circuits incorporating seawater—a cheaper and more sustainable water source than fresh water.
Journal article
Impact of chloride on uranium(VI) speciation in acidic sulfate ion exchange systems: towards seawater-tolerant mineral processing circuits
Journal of Industrial and Engineering Chemistry, Vol.51, pp.255-263
2017
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Abstract
Details
- Title
- Impact of chloride on uranium(VI) speciation in acidic sulfate ion exchange systems: towards seawater-tolerant mineral processing circuits
- Creators
- Ellen M Moon - Southern Cross UniversityMark D Ogden - University of SheffieldChristopher S Griffith - Australian Nuclear Science and Technology OrganisationAbigail Wilson - Australian Nuclear Science and Technology OrganisationJitendra P Mata - Australian Nuclear Science and Technology Organisation
- Publication Details
- Journal of Industrial and Engineering Chemistry, Vol.51, pp.255-263
- Identifiers
- 1476; 991012821137202368
- Academic Unit
- Southern Cross GeoScience
- Resource Type
- Journal article