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Field
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Improved physical modelling techniques for new high capacity floating offshore wind turbines DoS: Dr Martyn Hann ([email protected] , tel.: +44 1752 586130) 2nd Supervisor: Dr Sanjay
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Supervisors: Professor Charles Augarde, Durham University Professor William Coombs, Durham University Enquiries email: [email protected] Project description With the expansion of offshore wind
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Safeguarding the Dynamic Stability of Sustainable Integrated Offshore-Onshore Electrical Power Systems. HybridLabs is an academic-industrial consortium of 37 partners that will accelerate
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With the expansion of offshore wind comes the unavoidable question of what happens when we no longer need the foundations? So that we may minimise long term liability, and operate in a sustainable
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. The study of wave/wind structure interaction (WSI) is fundamental to the design and development of coastal, offshore and ocean engineering structures, including sea defences and emerging offshore renewable
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student to work on the SEAI funded InDyCORE (Innovation in Dynamic Cables for Offshore Renewable Energy) project. Power export cables for floating offshore wind turbines, termed ‘Dynamic Cables
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anchoring systems for offshore floating renewable energy infrastructure. You will also have the opportunity to work as part of a vibrant research group focussed on a range of offshore engineering challenges
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The offshore wind industry has expanded rapidly and as a large influx of offshore workers is expected to meet the growth of the industry, companies now have an important task of maintaining health and safety
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The offshore wind industry has expanded rapidly and as a large influx of offshore workers is expected to meet the growth of the industry, companies now have an important task of maintaining health
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Supervisor(s) Dr Alexandros Petalas, Durham University. Dr Will Coombs, Durham University. Enquiries email: [email protected] Project description Renewable offshore wind energy plays a critical