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Field
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simulations, exploring novel aspects of numerical modelling and expanding the computational mechanics capabilities of the group. This project offers the opportunity to join a vibrant research group and
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semiconductor devices, and develop high-fidelity instrumentation based on the electromagnetic fields created by the modules. You will develop 3D field simulations and experimentally validate your findings, both
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numerical, utilizing computational fluid dynamics (CFD) to create high-resolution simulations. These simulations will capture the intricate turbulent dynamics of the flows, providing a detailed picture of
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the levels of immersion experienced by users in advanced VR environments. The position involves developing a VR simulation, modifying experimental conditions, conducting human trials, and analysing user
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environment. Accurately predicting flow and heat transfer in these systems is critical for safety, performance, and design assessments, yet direct high-fidelity simulations, such as Large Eddy Simulation (LES
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effectively and accurately at long range. Research Objectives: Model and simulate the effects of poor weather on high-energy propagation. Analyse frequency and sensing modality impacts on transmission using EO
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related discipline. You will bring strong technical skills in building physics, dynamic thermal modelling, and environmental monitoring. Ideally, you will have experience with simulation tools such as IES
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fluid dynamics (CFD) simulations, Finite Element Analysis, manage and execute the procurement of the build, run the aerothermal testing and process and communicate the results. The skills, qualifications
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social media. Research interests regarding issues involving knowledge and the governance of complex societies and/or debates surrounding sustainable development. Downloading a copy of our Job Description
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exciting opportunities for knowledge exchange and networking with world leading ocean scientists. For example, you will help linking the observational data to new model simulations being developed