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, as one can note by the recent interest in twin-rotor turbines (https://www.offshorewind.biz/2024/07/15/mingyang-launches-twin-rotor-v-shaped-floating-wind-turbine-platform/ ), and the funding awarded
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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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for a period of one year and is associated with the ERC Consolidator Grant project Data-Driven Approaches in Computational Mechanics for the Aerohydroelastic Analysis of Offshore Wind Turbines - DATA
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that connect floating wind turbines to the seabed remain one of the challenging issues in the engineering analysis and design of floating wind applications. Over time, these subsea cables become coated with soft
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on dynamic system identification and digital twins has demonstrated significant advantages when applied to bridges, wind turbines, and high-rise buildings. Variations in dynamic characteristics - such as
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to the design of aircraft, wind turbines and medical devices, and for modelling the environment. Remarkable advances in computing driven by the exponential miniaturisation of transistors (Moore’s law) have
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threefold increase of installed generation capacity until 2030 will be challenging to meet. Airborne wind energy (AWE) is an emerging technology that can complement conventional turbines while reducing
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capacity until 2030 will be challenging to meet. Airborne wind energy (AWE) is an emerging technology that can complement conventional turbines while reducing the material consumption and environmental
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the transition to renewable energy by providing a deeper understanding of the structural behavior of blades, which will lead to improvements in the design, lifetime, and energy production of wind turbines. A
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the transition to renewable energy by providing a deeper understanding of the structural behavior of blades, which will lead to improvements in the design, lifetime, and energy production of wind turbines. A