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models, in-house laboratory tests in a wind-wave-current flume (https://research.ncl.ac.uk/amh/ ) and numerical methodology to quantify biofouling impacts on flow-induced vibration phenomena, structural
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. This PhD project will investigate how biofouling affects the hydrodynamic, thermal and fluid-structure interaction performance of dynamic flexible cables and develop novel engineering solutions to enhance
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significant and growing threat to communities worldwide, intensified by climate change and sea-level rise. Traditional coastal defence structures can be ecologically disruptive and expensive. Porous breakwaters
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to relatively impermeable lacustrine clays and glacial tills. Flooded mines create unexpected routes to the surface for groundwater, with the nature and structure of the superficial deposits influencing water
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an interdisciplinary 'systems-of-systems' methodology. The research is structured around four critical activities: 1. Evidence Gathering: Collect both qualitative and quantitative data through a systematic review of
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for groundwater, with the nature and structure of the superficial deposits influencing water movement and flood potential. A stronger conceptual understanding of the region’s geology, particularly the heterogeneity