Plutonium oxidation and subsequent reduction by Mn(IV) minerals in Yucca Mountain tuff |
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| Authors: | Powell Brian A Duff Martine C Kaplan Daniel I Fjeld Robert A Newville Matthew Hunter Douglas B Bertsch Paul M Coates John T Eng Peter Rivers Mark L Serkiz Steven M Sutton Stephen R Triay Ines R Vaniman David T |
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| Affiliation: | Department of Environmental Engineering and Science, Clemson University, Anderson, South Carolina 29630, USA. powell37@llnl.gov |
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| Abstract: | Plutonium oxidation state distribution on Yucca Mountain tuff and synthetic pyrolusite (beta-MnO2) suspensions was measured using synchrotron X-ray micro-spectroscopy and microimaging techniques as well as ultrafiltration/solventextraction techniques. Plutonium sorbed to the tuff was preferentially associated with manganese oxides. For both Yucca Mountain tuff and synthetic pyrolusite, Pu(IV) or Pu(V) was initially oxidized to more mobile Pu(V/VI), but over time, the less mobile Pu(IV) became the predominant oxidation state of the sorbed Pu. The observed stability of Pu(IV) on oxidizing surfaces (e.g., pyrolusite), is proposed to be due to the formation of a stable hydrolyzed Pu(IV) surface species. These findings have important implications in estimating the risk associated with the geological burial of radiological waste in areas containing Mn-bearing minerals, such as at the Yucca Mountain or the Hanford Sites, because plutonium will be predominantly in a much less mobile oxidation state (i.e., Pu(IV)) than previously suggested (i.e., Pu(V/VI). |
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