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candidate will play a key role in developing and advancing new models and simulations for Computational Fluid Dynamics (CFD) hypersonic codes. Specific tasks include developing new turbulence and transition
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turbulence, Condensed matter physics, Physical biology; Space-time physics: String theory and Quantum field theory, Astrophysical relativity; Mathematics: Differential geometry, Mathematical physics, Dynamical
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https://www.ccny.cuny.edu/engineering . We invite applications from outstanding candidates whose research and teaching interests intersect with mechanical engineering and demonstrate strong potential
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of software and numerical simulations of turbulent flow in complex geometries. The project will entail work with the direct numerical simulation codes Neko and PyFR. Qualifications Requirements A doctoral
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Magister’s degree (60 credits) in Mechanical Engineering, Aerospace Engineering, Physics, or Chemistry, with a strong focus on heat and fluid flow phenomena. Experience in turbulence modelling, data-driven
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the Department of Energy Sciences. At the division, we conduct research in various fields, including research in design and optimization of turbomachinery, reactive fluid dynamics, multi-phase and turbulent flows
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The Computational Turbulent Reacting Flow Laboratory, led by Prof. Michael E. Mueller, invites applications for postdoctoral or more senior research positions in the field of atmospheric aerosol
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, subsurface current, and turbulence in the upper ocean. Numerically implement the newly proposed time integration approach using fundamental programming languages Explore the method of exponential integrator
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methods to complex unsteady and turbulent hypersonic flows, and/or advanced code development for high-performance computing About the Department The Department of Aerospace Engineering and Mechanics (AEM
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at these scales, what are its characteristics, and its origin. This will be done within the framework of the concept of "solid turbulence" which seems to be quite relevant for characterizing ice pack dynamics