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Radiation Induced Dissolution of UO2

Published online by Cambridge University Press:  28 February 2011

Hilbert Christensen*
Affiliation:
Studsvik Nuclear, S-611 82 Nyköping, Sweden
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Abstract

In order to be able to model the effect of water radiolysis on the dissolution of fuel in the disposal vault it is essential to study the oxidation mechanism. Radiolysis of water produces radicals and molecules, amongst them the oxidizing species H2O2 and OH radicals, and, in aerated solutions, O2- as well. These species are probably responsible for the oxidation and dissolution of UO2 observed in a number of experiments. In the present investigation the effect of the oxidizing species has been studied separately using suitable scavengers. A polished specimen of UO2 was immersed in water and irradiated at ambient temperature with Co-60 gamma radiation. After irradiation the amount of uranium which had dissolved, or deposited elsewhere than the sample surface, was measured, and the oxidation of the surface was determined, using ESCA and SIMS. In 50 mM H2O2 (without irradiation) the corrosion rate was 5±3 μg.cm−2d−1 after 6 d exposure at pH 8. Corresponding rates for oxidation by O2- and OH radicals were about 3 μg.cm−2d−1, (dose rate 600±90 Gy/h.)

Type
Research Article
Copyright
Copyright © Materials Research Society 1991

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References

REFERENCES

1 Gromov, V, Radiat Phys Chem 18, 133 (1981).Google Scholar
2 Bailey, M G, Johnson, L H and Shoesmith, D W, Corrosion Science 25, 233 (1985).Google Scholar
3 Sunder, S, Shoesmith, D W, Christensen, H, Bailey, M G and Miller, N H, in Scientific Basis for Nucl Waste Mangement XII, Lutze, W and Ewing, R C (Eds). Mat Res Soc Symp Proc Vol 127, pp 317324 (1989)Google Scholar
4 Christensen, H, Bjergbakke, E, in Scientific basis for nuclear waste management X, Bates, J K and Seefeldt, W B (Eds). Mat Res Soc Symp Proc Vol 84, pp 115122 (1987).Google Scholar
5 Allard, B, Torstenfelt, B and Andersson, K, in Scientific Basis for Nuclear Waste Management, Vol 3, Moore, J G (Ed), Plenum, New York 1981, p 465–72.CrossRefGoogle Scholar