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team of researchers both at Imperial and in a broader industrial coalition, you will develop a plume-scale contrail simulation and embed it in a global-scale model such as the UK Met Office Unified Model
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sources compared with gas turbines, etc. The aim of this PhD research is to develop novel performance simulation capabilities to support the analysis and optimization for sCO2 power generation systems
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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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experience of scientific presentations Working knowledge of quantitative analysis and statistical methods Downloading a copy of our Job Description Full details of the role and the skills, knowledge 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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allowed computational fluid dynamics (CFD) to flourish, becoming an indispensable for many industries. Simulating the full Navier-Stokes equations is computationally prohibitive for most applications, so
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engineering wake models to mesoscale simulations with wind-farm parametrisation, when predicting wake effects and thus annual energy production. The student will improve current models used by industry such as
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provide different opportunities for you to develop. You would gain experience across a wide range of interdisciplinary areas including nano-assembly, optics, colloidal chemistry, and simulations across
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to understand the risk of these abundant pollutants in the context of other co-occurring environmental stressors. The influence of ocean warming on the biouptake of nanoplastics will be explored under simulated
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biological materials. The development of novel computer-vision-based techniques for contactless detection, quantification, and prevention of sport injury. The development of robotic humanoid simulator and