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., Pettersson, H., Behrens, A., Männik A., 2018. Comparing a 41-year model hindcast with decades of wave measurements from the Baltic Sea. Ocean Engineering, 152, 57–71. https://doi.org/10.1016/j.oceaneng
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friction. Coastal Engineering, 53(2), 149–165. https://doi.org/10.1016/j.coastaleng.2005.10.005 Dean, R. G., & Walton, T. L. (2010). Wave setup. In Y. C. Kim (Ed.), Handbook of Coastal and Ocean Engineering
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project deliverables are met. Undertake these responsibilities in the project: 1. Wave Stochastic Analysis and Hydrodynamics Conduct advanced stochastic analysis of wave environments to evaluate
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controller for wave energy converters), Some project detail: The EU Horizon SHY project is set to play a pivotal role in unlocking the potential of wave energy converters by developing key components of a
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synchronisation of severe seas and high water levels. Geo-Marine Letters, 37−1, 35–46, https://doi.org/10.1007/s00367-016-0471-5 Soomere, T., Viška, M., 2014. Simulated wave-driven sediment transport along
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increasing storm intensities threaten the Belgian coast. Dunes serve as a natural safeguard, but they face significant erosion risks from wave overwash. This project aims to enhance the XBeach coastal model by
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. Minimum requirements: Experience in dynamic modelling of floating structures using software such as OrcaFlex or OrcaWave, in experimental hydrodynamic testing in wave tanks, in metocean analysis, and in
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team members to ensure all project deliverables are met. Undertake these responsibilities in the project: Resistance Analysis: Conduct simulations to analyze wave interactions, buoyancy, and stability
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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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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