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2026 at latest The students will be enrolled in the structured PhD programme in the Department of Bioengineering, Imperial College London. https://www.imperial.ac.uk/bioengineering/admin/research
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forcing of structural vibrations, often linked to the presence of complex flow features such as wakes and flow separation and their interaction, whose numerical representation can be challenging for legacy
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Duration: 3 years Start date: August 2026 at latest The students will be enrolled in the structured PhD programme in the Department of Bioengineering, Imperial College London. https://www.imperial.ac.uk
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, e.g. in the eye-lens fluid and antibody solutions, which resulted in a number of fundamental and general results not yet available for intrinsically disordered proteins. Within this postdoctoral project
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blade aerodynamics, gust interactions, and fluid-structure interactions. The research focuses on unfolding the origin and development of unsteady flow separation and vortex formation. The lab has built a
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the high fraction of coherent photons delivered by the upgraded ESRF-EBS storage rings to probe nano and atomic scale structures and dynamics. Dynamics is studied using X-ray Photon Correlation Spectroscopy
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dynamics, kinematics, acoustics/vibrations, fluid–structure interaction, control, or other mechanics-driven domains. Experience with applied computational methods and machine-learning–based modeling
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charged GAGs which, when combined with collagen, produce an osmotic effect. The fluid-structure interaction will be modelled as a homogenised continuous medium within the framework of poromechanics, while
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aerodynamics, propulsion, and nuclear fusion; b) multi-scale and multi-physics simulation, with applications in fluid dynamics, structural mechanics, or coupled aero-thermo-mechanical systems; c) development
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floating wind energy with a special focus on nonlinear hydrodynamic fluid-structure interaction and the interaction between the hydrodynamic and rotor-based motion response. Computational Fluid Dynamics will