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. The student will incorporate the fast-evolving understanding of magma-mush systems into numerical models simulating surface deformation from porous fluid (magma) flow, and test how predicted subsurface stress
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exposure, and thermal fluctuations. Key Objectives: - Develop and characterize low-carbon materials with multi-functional properties - Assess mechanical performance and long-term durability under simulated
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. Third, the ELITE system’s durability will be evaluated in Cornish geothermal brine water, progressing from lab-scale tests with simulated brine or seawater to pilot-scale trials with real brine, ensuring
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-matter interactions, via theory and simulations, to measure quantum dynamics in atoms and molecules. The project aims to explore new ideas for how quantum tomography, combining multiple measurements and
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-power embedded electronic system within the capsule. The assembled capsule will be tested in a simulated GI environment. The University is uniquely positioned to benefit any applicant interested in a
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to perceive, reason and act flexibly. The models will be trained on simulated datasets to learn general behaviours, then fine-tuned for specific tasks. The aim is to create intelligent agents that could
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, finite element simulations of vibration propagation, and AI-based signal analysis to establish a physics-informed understanding of the relationship between structural behaviour and fall detection accuracy
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partners. They will develop advanced skills in experimental hydrodynamics, materials characterisation and computational simulation – highly sought after in the UK’s growing offshore energy sector
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Element Method (CFD-DEM) model to simulate and optimise the high-temperature chlorination process used by Krystal Technology Ltd, a UK-based leader in high-purity quartz production. This project will
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environment; opportunities to co-create your project; hands-on fieldwork and wildfire simulation experience; collaboration with leading researchers; and training in advanced characterisation, data analysis, and