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Field
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and ever-denser devices, heat fluxes comparable to the surface of the Sun can be generated at hot spots, producing high temperatures that adversely impact their performance and raise risk of
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of understanding how to shape these fields are being investigated by measuring currents, voltages, and temperatures directly inside modules. In this PhD, you will design and develop high performance modules for WBG
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. This PhD project investigates how emerging Next-Generation Networks (NGNs), including Beyond-5G (B5G) and 6G, can be connected to ensure secure, high-performance mission-critical communications, vital
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be used effectively as a performance digital twin to generate high-quality engine performance models and produce required training data for the proposed project. This could be a good starting point for
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the modern flow engineering technology. Major issues are the undesired increase of wall friction and wall-heat transfer when the flow becomes turbulent, which impacts directly on the performance
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efficiency of movement and higher energy cost experienced by people with cerebral palsy cause an early onset of fatigue, particularly in the heat. Our research-based strategies are helping Para athletes adapt
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experiments; supporting other group members with data analysis and interpretation from both simulations and experimental data; and use the developed framework to design new materials with optimised performance
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Learning Centre (SUSIM ). Further support from AIM will enable deeper insight to material performance and failure through a variety of imaging techniques including micro-CT and digital volume correlation
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impact. Recycled plastics often suffer from high variability, making it challenging for industry to predict and optimise their performance for specific applications. This PhD project seeks to address
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Research Group at the Faculty of Engineering which conducts cutting edge research into experimental and computational heat and mass transfer, multiphase flows, thermal management, refrigeration, energy