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implementation of numerical models for the simulation of wave propagation from weather-tsunamis and on the development and implementation of hydrodynamic models (2D/3D) for the simulation of the transport
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of ocean waves and hydrodynamic modelling, with particular focus on marine renewables, offshore wind and coastal structures. The research is primarily carried out through externally funded collaborative
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models, in-house laboratory tests in a wind-wave-current flume (https://research.ncl.ac.uk/amh/ ) and numerical methodology to quantify biofouling impacts on flow-induced vibration phenomena, structural
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by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description During storms, the nearshore dynamics is primarily governed by depth-induced wave breaking
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their operational reliability. The PhD student will combine mathematical models, in-house laboratory tests in a wind-wave-current flume (https://research.ncl.ac.uk/amh/ ) and numerical methodology to quantify
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larger project. Prior knowledge of wave hydrodynamics. Good organization skills. TU Delft (Delft University of Technology) Delft University of Technology is built on strong foundations. As creators
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | about 12 hours ago
://math.unc.edu). Position Summary This position will join our group working at the intersection of fluid mechanics and soft matter physics. Ongoing lines of investigation include pilot-wave hydrodynamics
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on Floater Hydrodynamics. Sustainability (Switzerland), 15(12). https://doi.org/10.3390/su15129403 [3] Rui, S., Zhou, Z., Gao, Z., Jostad, H. P., Wang, L., Xu, H., & Guo, Z. (2024). A review on mooring lines
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the University of Maine) with added electrolyser, ancillary plant and hydrogen storage tanks. FOW foundations with hydrogen storage and subject to wind turbine and hydrodynamic loads will be analysed in terms
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computational and experimental; we work on exciting problems in diverse areas such as bio-fluid interactions, signatures, wave energy, advanced materials, complex hydrodynamics and hydroacoustics, data