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of Leeds and Sellafield Ltd, to investigate the nature of waste evolution under storage conditions in order to predict volume changes and resulting forces generated on confinement packaging. Specifically
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developing Generation IV nuclear reactors. With the complication of Salts chemistry and the extreme conditions to operate, the material degradation behaviour when the components are subject to mechanical
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to qualify the materials used for the transportation of CO2. Secondments to consortium partners are an essential part of the programme. The candidate will have secondments at the University of Leeds in the UK
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of waste for long term storage. A particular waste is corroded magnesium alloy clad uranium metal fuel that has formed sludge and is currently contained in open and closed facilities on the Sellafield site
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Bachelor’s Degree in an appropriate field will also be considered. Subject Area Analytical Chemistry, Physical Chemistry, Machine Learning, Mechanical Engineering, Chemical Engineering, Materials Science
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the UK prepares to invest in new nuclear power plants, industry and research organisations are also looking towards developing the next generation of effluent and waste treatment processes. Ongoing
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Nuclear power generation is expected to rise to meet increasing UK and global energy demand, whilst maintaining net-zero targets. In this context, reprocessing of waste from nuclear reactors in order to
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Engineering at the Technical University of Denmark (DTU) for the project MISSION-CCS (Material Science Innovation for Accelerated, Sustainable and Safe Implementation of Carbon Capture and Storage). MISSION-CCS