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balance in lumped-parameter and differential forms. Hydrostatics. Laminar and turbulent flow in pipes. Application of fluid mechanics to nuclear components and systems. Teach NERS 344 Fluid Mechanics
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sea ice variability; processing satellite datasets to monitor sea ice and surface melt; investigating how turbulent and radiative heat fluxes from open water and polynyas drive snowfall and melt events
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Arts et Métiers Institute of Technology (ENSAM) | Paris 15, le de France | France | about 1 month ago
: effective implementation and application to computational fluid dynamics and turbulent flows. Journal of Computational Physics, 242, 623-647. [3] Maday, Y., Patera, A. T., Penn, J. D., & Yano, M. (2015). A
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battery fire combustion and spread. Strong skills in turbulence modelling, CFD mesh generation in complex 3D geometries. Proficient in handling large data sets and the ability to analysis and interpret
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(especially optical measurement techniques) or willingness to acquire these skills Familiarity with computational fluid dynamics (CFD), ideally including turbulence modeling, multiphase flow, or population
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of transportation and energy. Its experimental and numerical modeling activities focus on various complex and multiphysical flows, including turbulence, two-phase flows, combustion, and thermoacoustics. Research
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techniques to model fluid turbulence, fusion plasmas (with a particular focus on inertial confinement fusion target design), and quantum circuit simulators. The work will range from algorithmic and theoretical
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Geometry and Numerics group. About the research project Your major responsibilities will be to make progress on the understanding of the long-time, turbulent behaviour in models of magnetized fluids
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framework (e.g., OpenFOAM, ANSYS Fluent). Solid understanding of heat and mass transfer, turbulence modeling, and reaction kinetics. Experience with high-performance computing (MPI, parallel simulations) is
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we reduce (a) shear-induced platelet activation, (b) endothelial wall damage due to turbulent wall-shear stress, (c) flow stasis in the sinus portions, and (d) clot adhesion at tissue surfaces