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must hold a Masters’ degree in fluid mechanics, physics or applied mathematics and have a good knowledge in fluid dynamics, with an interest in experiments and turbulence. Application process: Applicants
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on simulating nanoalloy structures to create a database for materials characterization. The main tasks include running molecular dynamics and Monte Carlo simulations to model nanoalloys under various
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of computational fluid dynamics (CFD) models describing thermochemical conversion processes of biomass and waste-derived fuels, including combustion, pyrolysis, and gasification. The successful candidate will
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: Applications accepted all year round Details Data assimilation combines physical models with experimental or numerical data to produce dynamically consistent flow reconstructions. In turbulence, where full
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to: i) lead the design and creation of an experimental setup to examine fluid-structure interactions between 3D-printed models of deep sea sponges and ii) lead the formulation and analysis of finite
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research in experimental and computational fluid mechanics, hydrology, and earth-surface dynamics. For over 80 years, our innovative and adaptable facilities have attracted trailblazers, problem solvers, and
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/ plasma research are preferred. Knowledge of computational fluid dynamics is a plus. Strong organisational and communication skills are expected in order to facilitate interaction with several external
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falls within the activities of the AURIGA project and focuses on the theoretical and experimental investigation of multi-scale fluid dynamics in bubble columns using ionic liquids. The objectives
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students and postdoctoral researchers on experimental methods. Teach a course in fundamental fluid mechanics. Contribute to laboratory health and safety activities. Write journal papers. Required selection
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and other complex fluids using molecular simulations. In order to make these simulations more computationally feasible, development of coarse-grained models and new Monte Carlo or molecular dynamics