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microplastic particles in complex flow fields, as part of the MicroWash project. In the MicroWash project, we will combine novel experiments and simulations to investigate the fluid mechanical principles
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microplastic particles in complex flow fields, as part of the MicroWash project. In the MicroWash project, we will combine novel experiments and simulations to investigate the fluid mechanical principles
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, and future engineering living materials. Flowing suspensions of living microalgae cells represent a new kind of living fluid that physiologically responds to the environment and flow conditions. New
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: coupling between fluid flow and chemistry, coupling between solid phase and fluid flow, solid phase decomposition, pollutant formation (including tars), impact of design choices and biomass type, etc
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composite materials and structures. Good mathematical skills and experience in numercial methods for structures and/or fluids. Good programming skills (e.g. Matlab, Python). You have obtained an MSc
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Mechanical Engineering by the start of the project. Good knowledge of fluid mechanics and transport phenomena is needed to make progress in the project; knowledge of soft matter physics or colloid science will
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Mechanical Engineering by the start of the project. Good knowledge of fluid mechanics and transport phenomena is needed to make progress in the project; knowledge of soft matter physics or colloid science will
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, computer science or related disciplines. A strong background in either: ) fluid dynamics and numerical modelling ) satellite Earth observation data analysis (involving an understanding of the physics