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Field
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des Fluides et d'Acoustique - LMFA) develops a continuum of research in fluid mechanics and acoustics, from the understanding and the modelling of physical phenomena to applied research, in
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pertaining to fluid mechanics of turbulent and environmental flows starting September 1, 2025, or as soon thereafter as possible. The position is for one year, with the possibility of renewal for two
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multiphase flow in porous media. 80% - Applying numerical and analytical infiltration models to quantify groundwater recharge potential under varying hydrogeologic conditions. In parallel, the researcher will
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heat transfer, fluid mechanics, reactive flows, as well as solid mechanics plays a central role. In particular, improved understanding of turbulent, reactive, and multiphase flows together with material
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the boundaries of current technology by identifying optimal aerodynamic configurations that maximize wind capture efficiency and mitigate turbulence under diverse urban layouts and meteorological
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within the following projects: 1. CO2plus: Phase behavior of CO2+X in CO2 storage. 2. CapSim: Optimizing carbon capture simulation through advanced modelling tools. Responsibilities and
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feedback and curvature flow, investigating stability and uniqueness of minimisers, and implementing numerical schemes to simulate the resulting non-linear PDE dynamics. In this way, the project aims
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fluid mechanic modelling of particle trajectories in acoustically actuated microfluidic systems. Experience of acoustic enrichment/trapping of nanoparticles or extracellular vesicles Experience in
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flow, and a theoretical/numerical part on “fluid mechanics” focusing on transport by complex flows (e.g., turbulent flows). Depending on the profile of the person recruited, their activities will
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will be to: Model the optical, mechanical and optoelectronic properties of the fibers using ray tracing and finite element method models; Select and characterize soft materials for the fibers, and use