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26th May 2025 Languages English English English The Department of Structural Engineering has a vacancy for a PhD Candidate in Structural Monitoring of Wind Turbines Apply for this job See
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high temperature corrosion rate involving mathematical models validated through simulation, experiments and analysis. Gas Turbines are used as a multipurpose power source in various applications like aviation, power
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To improve the availability and reduce the overhaul and maintenance (O&M) costs of gas turbine propulsion systems, the gas turbine industry is moving from scheduled maintenance to condition-based
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areas Engineering & Technology Mathematics & Statistics Physics & Astronomy Project description Individual wind turbines produce turbulent wakes that have implications for maximum power generation from
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PhD candidate to work on the microstructural characterization of nickel-based alloys used in the manufacture of turbine wheels. The PhD candidate will work on the microstructural characterization
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complex flow system with a focus on its interaction with wind turbines, providing essential insights to meet the global demand for renewable energy. We employ a multidisciplinary approach that includes free
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to integrate floating offshore wind turbines and wave energy converters to capture wind and wave energy. The hybrid system’s dynamic responses will be investigated and advanced vibration control technologies
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of floating offshore wind turbines with sustainable concrete floaters. The role is for the second intake of the EnerHy programme which commences in October 2025. Research project overview: To achieve
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of Offshore Wind Turbines - DATA-DRIVEN OFFSHORE (Link: https://www.uib.no/en/nt/159993/will-develop-groundbreaking-offshore-wind-technology-erc-grant ). About the project/work tasks Offshore wind energy is
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wind turbines are pivotal in driving the global transition to renewable energy; however, maintaining these critical assets poses substantial challenges. Advances in computer vision and deep learning