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@hull.ac.uk Project description The pursuit of clean and sustainable energy solutions has led to the exploration of innovative methods for harnessing wind energy. One such innovation is the development
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role on meeting net zero targets, which leads to the need for novel design and construction solutions for offshore wind structures that are subjected to dynamic loading conditions (wind, waves
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of the nature and number anticipated cannot be simply adapted from oil and gas solutions for technical and economic reasons. For example, traditional drag anchor design is based on empirical approaches which
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simulations and design, construction, and characterisation of the experimental capabilities. Once functional the student will use the new spectrometer to investigate the role of non-thermal chemistry in
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and Matter group to undertake taught courses on Experimental Skills, optical design, atom-light interactions and data analysis in the first year. Furthermore, the student will engage closely with
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for future designs to aid extraction whilst maintaining in-service requirements. The novelty of this project is found in its aims to: Develop new computational techniques of much wider applicability
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the region. The final thesis will therefore be of academic importance and practical relevance to advancing business enterprise, innovation, and regional development in the UK. Proposals with no link or just a