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) of the Toulouse Institute of Fluid Mechanics, as part of the ERC HYROPE project (Synergy Grant). This project is in collaboration with 3 European partners (ETHZ, NTNU, TU Darmstadt) and concerns the fundamental
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PhD Studentship in Mechanical Engineering: Particle Transport in Porous Media in Subsurface Carbon Storage Applications Award Summary 100% fees covered, and a minimum tax-free annual living
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thermal resistance – potentially modifying the coupled electro-mechanical-fluid loading and causing fatigue and early failure. This PhD project will investigate how biofouling affects the hydrodynamic
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to mineral dissolution followed by the precipitation of secondary minerals. From a fluid dynamics perspective, the newly formed solids can be regarded as particles suspended within the pore-scale flow
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mechanics, and analytical and numerical methods to solve partial differential equations. Excellent oral and written communication skills. Prior experience in computational fluid dynamics or active matter will
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experimental fluid mechanics, turbulence, multiphase flows and advanced instrumentation Specific Requirements Thesis work mainly at LEGI, 5 days/week with hours that may be modified depending on measurement
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to mechanical engineering, including fluid mechanics, thermics and combustion. The PhD student will be attached to the team Curiosity Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UPR3346-NADMAA
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Physical Sciences or a related discipline, with expertise in fluid mechanics and heat transfer. Experience with Computational Fluid Dynamics software, preferably OpenFOAM. Programming skills with software
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imaging using deep learning. You will study the water imbibition in hierarchically porous Si‑based material systems across multiple length and time scales. These systems can manipulate fluid transport
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and hard biofouling – marine organisms that increase drag, weight and thermal resistance – potentially modifying the coupled electro-mechanical-fluid loading and causing fatigue and early failure