Article ID Journal Published Year Pages File Type
1738184 Journal of Environmental Radioactivity 2013 6 Pages PDF
Abstract

•We have developed extraction technique for U oxidation states in solid material.•Comparison of results with L3-edge XANES was made.•Interferences induced by extracted redox-active Fe were identified and studied.•Potential influence of radiation induced changes was evaluated by annealing experiments.•Extraction results were in good agreement with XANES.

A wet chemical method to determine uranium (U) oxidation states in geological material has been developed and tested. The problem faced in oxidation state determinations with wet chemical methods is that U redox state may change when extracted from the sample material, thereby leading to erroneous results. In order to quantify and monitor U redox behavior during the acidic extraction in the procedure, an analysis of added isotopic redox tracers, 236U(VI) and 232U(IV), and of variations in natural uranium isotope ratio (234U/238U) of indigenous U(IV) and U(VI) fractions was performed. Two sample materials with varying redox activity, U bearing rock and U-rich clayey lignite sediment, were used for the tests. The Fe(II)/Fe(III) redox-pair of the mineral phases was postulated as a potentially disturbing redox agent. The impact of Fe(III) on U was studied by reducing Fe(III) with ascorbic acid, which was added to the extraction solution. We observed that ascorbic acid protected most of the U from oxidation. The measured 234U/238U ratio in U(IV) and U(VI) fractions in the sediment samples provided a unique tool to quantify U oxidation caused by Fe(III). Annealing (sample heating) to temperatures above 500 °C was supposed to heal ionizing radiation induced defects in the material that can disturb U redox state during extraction. Good agreement between two independent methods was obtained for DL-1a material: an average 38% of U(IV) determined by redox tracer corrected wet chemistry and 45% for XANES.

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Physical Sciences and Engineering Energy Nuclear Energy and Engineering
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