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the project. UKAEA runs the UK’s fusion research programme and has until recently operated Joint European Torus (JET) fusion experiment on behalf of scientists from 28 European countries; now it is leading
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potentially UKAEA as industrial partners. It is expected that the student will undertake a placement at Rolls-Royce during the project. This exciting research is industrially highly relevant and of great
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manufacture, nuclear waste storage, green platforms for growth of functional materials, fuel cell hermetic seals, electrolytes, carbon capture solvents and thermal energy storage media. It is also vital
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challenges to the electricity transmission and distribution system, as solar power is not dispatchable and therefore its incorporation as a major element of the generation mix requires the accurate prediction
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(depending on the candidate availability), on a project with Rolls-Royce plc. The Rolls-Royce funded studentship is the result of expanding its on-platform repair activities sponsored at the Rolls-Royce UTC
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in healthcare service and opportunities for identification of such deviations using computer vision approaches. It will demonstrate how deviation data can be used in computer-based simulation models
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the critical functional processes of fertilisation. It is anticipated that this will highlight a key biomarker in both human and animals. Along with this, environmental chemicals previously shown to be
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the next generation of robots and its sensing solutions to perform tasks in challenging working environments. This project is related to the development of smart mechanisms and sensing to support the
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model system: it is an inherently defective system (like almost all real catalysts) that can be anchored to supports amenable to fundamental atomistic studies. This research will build upon an ongoing