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on his Australian Research Council DECRA Fellowship project “Next-generation floating hybrid offshore wind-wave energy conversion system” along with Professors Wensu Chen and Hong Hao. This project aims
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carbon emissions reduction targets set out by the UK- and Irish governments up to 2050, Floating Offshore Wind energy will likely play a significant role. Construction of concrete floaters is attractive
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are looking for a highly motivated and skilled PhD researcher to work on structural surrogates of offshore wind foundations through graph-based machine learning. Our goal is to perform full-structure
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used in wind turbine blades, structural engineering exposed to offshore environments. However, the rapid growth of the wind turbine industry is expected to generate million tons of blade waste globally
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of monopiles and jackets to depths of 80–100 m. Such solutions for these greater-than-standard depths should provide viable fixed-bottom designs to unlock numerous offshore sites with gigawatts of wind energy
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“Multiscale modelling of soil-structure interaction for renewable energy applications”. An improved understanding of soil-structure interface behaviour can lead to significant cost savings for offshore wind
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, Structural & Environmental Engineering, Trinity College Dublin, invites applications for a PhD Researcher to join the geotechnical research group as part of a Sustainable Energy of Ireland funded research
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project and validated in offshore conditions. By unifying aerial, surface, and underwater data through intelligent sensor fusion and coordinated control, the system aims to provide improved situational
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and AI-based segmentation, with a particular emphasis on inter-vehicle collaboration. The overall goal is to develop robust, scalable methods for detecting and classifying structural anomalies (e.g
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of anthropogenic structures in the North Sea, most notably due to the expansion of offshore windparks, may have multifaceted effects on marine ecosystems. In addition to the direct consequences of introducing