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possible if radical innovations are made in the way we develop and deploy offshore renewables: floating wind energy structures. The HybridLabs project aims to accelerate the deployment of offshore renewable
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targets – in overseeable timeframes – will only be possible if radical innovations are made in the way we develop and deploy offshore renewables: floating wind energy structures. The HybridLabs project aims
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targets - in overseeable timeframes - will only be possible if radical innovations are made in the way we develop and deploy offshore renewables: floating wind energy structures. In the project HybridLabs
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funded Marie Curie Doctoral Network POSEIDON – Improve offshore infrastructure resilience against geohazards towards a changing climate (www.poseidon-dn.eu ). The overarching objective of POSEIDON is to
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Are you curious about the challenges of securing offshore floating wind turbines to the sea bed? We are seeking a PhD candidate for the research project TAILWIND-Sustainable station keeping systems
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metallic materials, and degrade their mechanical properties, leading to a pre-mature failure. To support the upcoming hydrogen economy, understanding the hydrogen embrittlement (HE) in structural metals is
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upcoming hydrogen economy, understanding the hydrogen embrittlement (HE) in structural metals is essential for future hydrogen infrastructure. In particular, knowledge and control of the degrading effect
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space through large-scale floating developments. The interdisciplinary and applied research project ‘Floating Future: Scaling up floating structures as climate-proof space-creating solution enabling