7 numerical-methods PhD positions at NTNU Norwegian University of Science and Technology
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address this challenge using advanced experimental techniques, numerical simulations, and machine learning methods to develop high-fidelity 3D renderings of deformed samples during physical tests. By
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composites. You will combine experimental methods and computational modeling to push the boundaries of advanced manufacturing. Along the way, you will acquire expertise to build a foundation for a future
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-breakdown tests of cable peelings will be done at different stages of ageing to establish a foundation for improved physics- based ageing models. This will be incorporated into new numerical models
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Transition ). The candidate will be working with bubble dynamics beneath the hull of ships (a well-known method for reducing ship friction) and on how this affects the dynamic properties of the ship
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optimal configurations, dimensions, and mooring systems through the development of efficient analysis tools and application of numerical optimization techniques. Are you motivated to take a step towards a
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, will combine experimental methods with direct and inverse numerical approaches to better understand these effects and how to account for them in design. We’re looking for a motivated PhD candidate to
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. Still, it has relatively modest use. One bottleneck is the large computational times. Our hybrid CFD method which we refer to as Potential Viscous Code (PVC3D), based on OpenFOAM, combines potential flow