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) of the Toulouse Institute of Fluid Mechanics, as part of the ERC HYROPE project (Synergy Grant). This project is in collaboration with 3 European partners (ETHZ, NTNU, TU Darmstadt) and concerns the fundamental
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Description Experimental and computational projects available at the International Max Planck Research School for Sustainable Metallurgy (IMPRS SusMet) in Germany at the partner institutes Max
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generators concepts. The research plan includes: Development and implementation of a computational methodology integrating fluid–structure coupling in 2D and 3D unsteady flow regimes Cutting-edge experimental
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Research Framework Programme? Horizon Europe - ERC Is the Job related to staff position within a Research Infrastructure? No Offer Description The IRPHE Laboratory specializes in fluid mechanics. It
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cutting-edge methods in chemical, mechanical, and plasma processing of metal ores for a truly circular economy. Correlating experimental, ab initio and multi-scale simulation as well as machine learning
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methods in fluid dynamics and heat transfer to study multiphase flow phenomena. The goal is to integrate theoretical and experimental fluid dynamics with modern computational tools to analyze and predict
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fluid dynamics and heat transfer to study multiphase flow phenomena. The goal is to integrate theoretical and experimental fluid dynamics with modern computational tools to analyze and predict multiphase
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-edge sloshing research. Offer Requirements Education Level: Master’s degree (or equivalent) in Mechanical Engineering, Aerospace Engineering, Applied Physics, or a related field. Research Field: Fluid
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field. Research Field: Fluid dynamics, control engineering, or dynamical systems. Required Skills/Qualifications: Experience with experimental methods (laboratory setups, sensors, data acquisition
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co-supervision of student projects) Profile A master's degree in engineering, environmental sciences, or physics. Strong interest in experimental fluid mechanics. Experience with experimental (fluid