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are invited for a 3.5-year EPSRC funded UDLA PhD studentship. The studentship will start on 1st October 2026. Project Description Offshore solar energy is an emerging and highly promising technology for
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. Proficiency in programming languages like Python and MATLAB is essential. Practical experience in data science, predictive analytics, finite-element modelling, structural analysis, and/or offshore structures is
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. The development of offshore wind farms is essential for the energy transition, but it also raises questions about its impact on the marine environment. Each wind farm exerts different pressures on the environment
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Workshops Building, Ferrol Campus TASKS TO BE PERFORMED: Computational modeling and simulation of offshore aquaculture facilities, studying the hydrodynamic and structural behavior of the different elements
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to advanced facilities and real-world validation during your PhD. If this excites you and you want to make a real impact, join our PhD team at USN and help shape the future of offshore wind. We are looking
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PhD studentship in Biofouling Impact on Dynamic Cables for Offshore Floating Wind Award Summary 100% fees covered, and a minimum tax-free annual living allowance of £20,780 (2025/26 UKRI rate
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telemetry, including vibration and acoustic data sampled at tens of kilohertz, yet they are typically deployed in remote onshore or offshore locations with narrow, failure-prone communication channels
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project will develop a methodological framework for reliability-based structural design and integrity management of the support structure of the subsea HVDC electrode unit, supported by experimental tests
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- and risk optimal installation and operation of offshore wind farms depend on accurate forecasts and predictions of environmental conditions and response of vessel and auxiliary systems. The focus
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education and research, in and outside academia. An offshore wind turbine installation is the result of a two-stage design process. The first stage is the design of a standardized Rotor-Nacelle Assembly and