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Field
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requires not only quantification of respective changes in materials but also development of novel tools for design and optimisation of new engineering solutions. This will be achieved by combining
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Extended reality (XR) is steadily developing into a reliable digital environment, bringing tangible advantages to various practical scenarios. Realistic use cases include immersive medical training
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mitigating these statutory micropollutants. Following the monitoring, it is also essential to develop enhanced NbS strategies that target micropollutant removal and remain compatible with other ecological and
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professionals alongside archival research, and will receive training to develop these skills. It will be jointly supervised by Dr Sarah Crook and Dr Jessamy Carlson. The student will be expected to engage with
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developing their multi-disciplinary research skills in systematic reviews, metabolomic analysis of food products and conducting human volunteer physiological trials. The collaboration involves a project
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investigation to replicate offshore flow conditions at a reduced scale; conducting novel experiments to examine turbulence generation and evolution under controlled variations in bathymetry and bed roughness, and
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independent member of academic staff who will not be a supervisor (but could be a Research Development Advisor). Industry partner representatives can be interview panel members.
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communities in the midst of civil war in addition to sustained strikes and new political movements. At its broadest perspective, the project aims to develop resources with which to consider the pasts, presents
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communities in the midst of civil war in addition to sustained strikes and new political movements. At its broadest perspective, the project aims to develop resources with which to consider the pasts, presents
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, combustion, and process optimisation. The project is focussed on the development of novel interface capturing Computational Fluid Dynamics methods for simulating boiling in Nuclear Thermal Hydraulics