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, understand, characterise, and model the effect of surface roughness on wall turbulence when out of equilibrium. Particular emphasis will be made on determining if any form of flow similarity exists across
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flow, fluid dynamics, and sustainable energy systems. The research focuses on developing new methods to study and model multiphase flows as key phenomena in energy and industrial processes. The work
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critical, to ensure expected engine performance is achieved. To predict this complex flow and heat transfer, next-generation Computational Fluid Dynamics (CFD) solvers using Large-Eddy Simulation (LES) and
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to the active sites within the porous structures. The successful doctoral candidate (DC) will develop a microscopic model for mass transport and reaction in redox flow batteries electrodes. Within this project
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transport and reaction characteristics within the microstructure. The successful doctoral candidate (DC) will develop a microscopic model for heat transport and reaction in redox flow batteries electrodes
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to a doctoral degree. The focus of this position is research on hydrodynamic loads and performance of tidal turbines under realistic flow and clearance conditions. Tidal-stream energy offers a
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requirements, the following qualifications are particularly meritorious: Experience with multiphase flows and advanced modeling methods for these systems. Strong expertise in fluid mechanics, heat transfer, and
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), IBPS, Sorbonne Université. The team possesses expertise in developing application-specific microfluidic models that integrate desired mechanical conditions of fluid flow and substrate viscoelasticity
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, followed by post-plasma catalysis into C2H4; (2) fully coupled modelling (i.e., plasma fluid dynamics and plasma + catalyst surface chemistry) for plasma-based CH4 conversion with post-plasma catalysis
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diagrams generated by such models, can be used to explore equilibrium assemblages with respect to the proportion and composition of mineral, melt and fluid phases across a range of geologically-relevant