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conditions. 2. Hydrodynamic and Fluid Structure Interaction Modeling Perform Hydrodynamic simulations to optimize the design and performance of floating breakwaters. Develop models for stability assessment
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in robotics and mechanical systems - Solid knowledge of continuum mechanics, deformable structures, and fluid mechanics - Proven experience in both theoretical/methodological developments and
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Learning techniques for investigation of fluid-structure interaction problems. Key Responsibilities: Undertake theoretical development of AI and physics-enabled data driven methodologies for fluids and
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transfer, fluid–solid interactions, and pressure drop in complex thermal structures. Design and train physics-guided surrogate models (e.g. neural networks with embedded physical constraints) for rapid
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theoretical and computational solid mechanics, fluid dynamics, hypersonics, aerospace systems, and aerospace structures and materials. The department is in the College of Science and Engineering at
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bridges the gap between static structural snapshots and the fluid, dynamic nature of the cellular landscape, providing a holistic view of how metabolic sensors operate within their native membrane
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the time the employment decision is made. Strong background in multiphase flows, cavitation phenomena, or fluid-structure interactions. Documented experience in experimental fluid mechanics and/or reactor
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hairy surfaces and when actively driving a soft sheet near a wall. Essential to the projects is developing a new understanding of the fluid-structure interactions, that is to say, the coupling between
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Lehrstuhl für Angewandte und Computergestützte Mathematik | Aachen, Nordrhein Westfalen | Germany | 6 days ago
Dissipative Dynamics, the international research training group Modern Inverse Problems, the SNuBIC research unit, the Sparsity and Singular Structures collaborative research center, as well as with the School
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of the project MESSENGER: « Can rock-powered Microbial EcoSyStEms provide valuable iNsiGhts into early life and its emERgence? » funded by the PEPR ORIGINS (https://pepr-origins.fr/en/ ) and integration