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Field
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. This project will combine numerical simulations, field observations, and stakeholder engagement to address three core research questions: 1. How does sediment transport reduce the efficiency and resilience
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simulations and finite element analysis, with high-heat flux electron beam experiments. The research will simulate and replicate steady, cyclic, and transient thermal loads to better understand PFM behaviour
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). Demonstrated experience working effectively with non-academic partners, such as public-funded bodies or volunteer and community sector organisations. Downloading a copy of our Job Description Full details
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, such as public-funded bodies or volunteer and community sector organisations. Downloading a copy of our Job Description Full details of the role and the skills, knowledge and experience required can be
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high-power laser processing system. It will involve design, simulation, prototyping, and experimentation utilising a newly developed nozzle assembly. Laser-based manufacturing is used across industries
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. The successful PhD candidate will drive the development of FSI model to simulate the effect of fluid-solid coupling effect on the vibration of the structure. The successful candidate will work with the
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materials for low-emission ammonia conversion. Perform both experimental investigations and computational simulations of the combustion process. The outcome of this project will demonstrate the feasibility
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website for more details about our research: https://lewisgroup.org.uk How to apply: For informal enquiries, email Dr Jamie Lewis at j.e.m.lewis@bham.ac.uk including a copy of your CV. Please apply through
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in the simulations with the goal of minimising manufacturing variability and defect generation, i.e. robust manufacturing. The outputs of the work will directly influence the development of high
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Building: A Digital Framework for Neighbourhood Retrofit in Scotland Multi‑Scale Simulations and Generative Design for Net Zero Built Environment Rethinking embodied carbon accounting of construction