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with the LEGI, IMFT and ISAE-SUPAERO laboratories, it is proposed to model the dynamics of cryogenic fluids at the reservoir scale by integrating sub-models from direct numerical simulations developed by
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acoustics, fluid dynamics, signal processing or applied mathematics. LanguagesENGLISHLevelGood Research FieldEngineering » Sound engineeringYears of Research ExperienceNone Additional Information Website
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Candidate profile: MSc degree (or engineering school), background in engineering, hydrology, surface phenomena, computational science, fluid dynamics, or Computational Fluid Dynamics. Prior knowledge
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/ ERC Is the Job related to staff position within a Research Infrastructure? No Offer Description The PhD candidate will study the physical mechanisms producing chaotic advection in laminar fluid flows
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are looking for a candidate with a taste for experiments, ideally with a background in soft matter physics or fluid mechanics. Foams are made of liquid or solid containing gas bubbles. Liquid foams have
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the pollutant source in order to predict the final mapping of the pollutant concentration? How can the return time of simulations be improved (using dynamic mesh adaptation, for example)? Conducting a high
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dynamic behaviours, from aseismic slip to mega-earthquakes. So far, there is no consensus on a model describing the processes controlling these fault behaviours. A possible answer might lie in
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programming (python, matlab) - Good knowledge in planetary sciences, geophysics, fluid dynamics - Good level in english - Interest in fluid dynamics, - Interest in digital image manipulation Application
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atmospheric profiles are parameterized. We know that this approach, built for the onshore boundary layer, is called into question in the MABL, close to the surface by the dynamic air-sea interactions (waves
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crucial for research in several scientific fields, from Computational Fluid Dynamics (CFD) for aeronautics design to Darcy flow in porous media for CO2 storage and geothermal energy. The performance