Nuclear Waste Containers: Does the Surface Finish Matter?
Within the UK, nuclear waste is generated from civil nuclear power, medical, and research facilities. It is categorised into high, intermediate and low level waste and conditioned into a suitable wasteform [treated to make it passively safe].
Intermediate level waste is commonly encapsulated into cement and stored in 304L stainless steel containers. These waste containers are stored above ground awaiting final disposal and will remain in service for 150 years1.
The surface finish of 304L stainless steel can be adapted for different applications. This research aims to determine the level of difference between cold rolled, brushed, and sandblasted surface finishes.
Joe Pawley from the geodisposal@NucleUS team at The University of Sheffield is currently investigating how the surface finish of these containers influences their corrosion, in collaboration with Sellafield Ltd.
The surface topology is imaged using the Henry Royce Institute Contour Elite K(Bruker), with several parameters calculated. These parameters include: surface roughness, height parameters, functional parameters, spatial parameters, hybrid parameters, stress concentration distribution, fractal behaviour, and surface openness.
This work aims to inform radioactive waste management of corrosion resistance of multiple surface finishes, which could influence the materials development for future waste packages. The results of this study will also feed into the nuclear waste disposal safety case.
Visualising the topography of samples in the μm or nm range is fascinating! Joe Pawley has taken images from the Contour Elite and 3D printed them to demonstrate the topographical changes due to surface treatment.
Dr Colleen Mann
Henry Royce Institute Research Associate | Nuclear Materials
ABOUT THE AUTHOR
Dr Colleen Mann is part of the Henry Royce Institute team, specialising in Analytical Chemistry and Characterisation of Nuclear Materials. She graduated from Queens University Belfast with a MSci Chemistry in 2013 and joined the University of Sheffield’s Department of Materials Science and Engineering to pursue a PhD as part of the Department’s world-leading NucleUS Immobilisation Science Laboratory (ISL) Research Group. The group has teamed up with Royce at the University of Sheffield, which further amplifies our nuclear materials characterisation capabilities.
1 ‘Waste Package Specification and Guidance Documentation Guidance on the design of waste containers for waste packages containing low heat generating waste’, no. December, pp. 1–123, 2019
Connect with us
Let's work together to develop the next generation of materials for a sustainable world.
Contact us by email or find us on Twitter and LinkedIn.
Research Excellence Framework 2021 results
The results demonstrate our research and impact excellence across a broad range of disciplines and confirm that our research is having a significant positive impact on lives across the globe.