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and observables outside the training dataset. Task 4 - Integration of the trained TBNN model into the open-source CFD software, OpenFOAM. Perform a series of simulations to validate the trained TBNN
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mechanics, optical components, thermal management, and tracking or control mechanisms. Use existing simulation tools (e.g., ray-tracing, CFD, thermal and structural solvers) to analyze optical performance
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research across thermal-energy storage, heat-transfer systems, and control engineering. This includes CFD/FEA modelling using tools such as ANSYS, COMSOL or OpenFOAM, laboratory experimentation for PCM
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designing against diffuse pollution. Typically, these processes are studied by laboratory experiments and/or computational fluid dynamics (CFD) approaches, often limited to an idealised patch of stems where a
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under the supervision of Prof. Minkwan Kim, collaborating with the European Space Agency (ESA) and NHS Hampshire Hospitals. More information about the project is available at https://project-pasta.com
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assessment of CCUS value chains Reactor design, optimization, and sizing using phenomenological and/or CFD methods DFT and Molecular modelling linked to CCUS Strong analytical and problem-solving skills, with
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developed. Where to apply Website https://sede.udc.gal/services/electronic_board/EXP2025/012749 Requirements Research FieldEngineering » Computer engineeringEducation LevelBachelor Degree or equivalent
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deployment enabling validation and demonstration of real-world applications. For more details, please view https://www.ntu.edu.sg/erian You will be part of a dynamic research team working on topics relevant
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experienced by hypersonic vehicles and quantifying the overall uncertainty. The candidate will assume the role of a software developer in the Computational Fluid Dynamics (CFD) and Propulsion Laboratory, a
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. Process simulation, cost, life cycle, and social assessment of CCUS value chains. Reactor design, optimization, and sizing using phenomenological and/or CFD methods. Energy system analysis. Strong