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changing wind directions (Kudryavtseva and Soomere, 2017) that are identified for certain months in the wind data (Bierstedt et al., 2015). Such changes are also evident in the temporal course of wave energy
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) is key to unlocking deep-water renewable energy and achieving the global Net Zero targets. However, dynamic power cables that connect floating wind turbines to the seabed remain one of the challenging
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two-peak directional wind structure (frequent SW and less frequent NW/NNW strong winds) (Soomere, 2003), results in the frequent occurrence of high waves that approach the shore at a large angle
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The project: The focus of this project is on the novel and exciting concept of multi-rotor wind turbines; a new design paradigm for wind energy, that is attracting an increasing amount of attention
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in shaping the future? Researcher 1109 There is a vacancy for a position as researcher in Data-Driven Computational Mechanics for Offshore Wind Energy at Geophysical Institute (GFI). The position is
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). Additional project costs will also be provided. Overview Offshore Floating Wind (OFW) is key to unlocking deep-water renewable energy and achieving the global Net Zero targets. However, dynamic power cables