Effects of Mn(II) on UO2 Dissolution under Anoxic and Oxic Conditions

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• 作者：Zimeng Wang ; Bradley M. Tebo ; Daniel E. Giammar
• 刊名：Environmental Science & Technology
• 出版年：2014
• 出版时间：May 20, 2014
• 年：2014
• 卷：48
• 期：10
• 页码：5546-5554
• 全文大小：491K
• 年卷期：v.48,no.10(May 20, 2014)
• ISSN：1520-5851

文摘

Groundwater composition and coupled redox cycles can affect the long-term stability of U(IV) products from bioremediation. The effects of Mn(II), a redox active cation present at uranium-contaminated sites, on UO₂ dissolution in both oxic and anoxic systems were investigated using batch and continuous-flow reactors. Under anoxic conditions Mn(II) inhibited UO₂ dissolution, which was probably due to adsorption of Mn(II) and precipitation of MnCO₃ that decreased exposure of U(IV) surface sites to oxidants. In contrast, Mn(II) promoted UO₂ dissolution under oxic conditions through Mn redox cycling. Oxidation of Mn(II) by O₂ produced reactive Mn species, possibly short-lived Mn(III) in solution or at the surface, that oxidatively dissolved the UO₂ more rapidly than could the O₂ alone. At pH 8 the Mn cycling was such that there was no measurable accumulation of particulate Mn oxides. At pH 9 Mn oxides could be produced and accumulate, while they were continuously reduced by UO₂, with Mn(II) returning to the aqueous phase. With the rapid turnover of Mn in the redox cycle, concentrations of Mn as low as 10 渭M could maintain an enhanced UO₂ dissolution rate. The presence of the siderophore desferrioxamine B (a strong Mn(III)-complexing ligand) effectively decoupled the redox interactions of uranium and manganese to suppress the promotional effect of Mn(II).