A geometrical model to describe the alpha dose rates from particulates of UO\(_2\) in water

A model investigating the role of geometry on the alpha dose rate of spent nuclear fuel has been developed. This novel approach utilises a new piecewise function to describe the probability of alpha escape as a function of particulate radius, decay range within the material, and position from the su...

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Bibliographic Details
Published in:arXiv.org 2021-06
Main Authors: Siberry, Angus, Hambley, David, Adamska, Anna, Springell, Ross
Format: Article
Language:English
Subjects:
Alpha rays
Dosage
Nuclear fuels
Particulates
Spent nuclear fuels
Online Access:Get full text
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Summary:A model investigating the role of geometry on the alpha dose rate of spent nuclear fuel has been developed. This novel approach utilises a new piecewise function to describe the probability of alpha escape as a function of particulate radius, decay range within the material, and position from the surface. The alpha dose rates were produced for particulates of radii 1 \(\mu\)m to 10 mm, showing considerable changes in the 1 \(\mu\)m to 50 \(\mu\)m range. Results indicate that for decreasing particulate sizes, approaching radii equal to or less than the range of the \(\alpha\)-particle within the fuel, there is a significant increase in the rate of energy emitted per unit mass of fuel material. The influence of geometry is more significant for smaller radii, showing clear differences in dose rate curves below 50 \(\mu\)m. These considerations are essential for any future accurate prediction of the dissolution rates and hydrogen gas release, driven by the radiolytic yields of particulate spent nuclear fuel.
ISSN:2331-8422
DOI:10.48550/arxiv.2106.13530