优蜜传媒 leads European consortium to innovate cable technology for a greener power grid
Researchers at The University of 优蜜传媒 will lead a European consortium to design crucial cable technology that will help achieve the ambition of transferring approximately 17% of total electricity from offshore wind by 2050.
The 拢5.5 million project, funded by Horizon Europe and the Swiss State Secretariat for Education, Research and Innovation (SERI), will involve a four-year collaboration between 优蜜传媒 and academic and industry experts from ETH Zurich, the University of Vienna, Universitat Polit猫cnica de Catalunya, NKT Cable Group, Shell Research Ltd, S&B Insurance Advisors, and Arttic Innovation. This initiative aims to develop the enabling technology that supports a sustainable European electricity grid.
Named DCDYNAMIC (Accelerating DC Dynamic Export Cable Technology for a Sustainable European Electricity Grid), the project will consist of three distinct parts. Firstly, understanding how electrical, mechanical, and thermal stresses impact these cables; secondly how to create real-world conditions for reliable testing; and thirdly, construction of a 320 kV high-voltage DC cable prototype, tested at scale using the simulated conditions created through the project.
DCDYNAMIC will be led by , Reader in High Voltage Engineering in the Department of Electrical and Electronic Engineering, which houses the UK鈥檚 largest academic electrical test and research facility, the . He will be joined by , Professor of Materials Science and Chief Scientist at the , the UK鈥檚 national institute for material innovation; and , Reader in Nanomaterials based at the
DCDYNAMIC is one of the earliest Horizon Europe projects since the UK re-joined, with a UK university serving as the lead coordinator.
Project lead, Dr Tony Chen, said: 鈥淏eing granted European Commission funding as the project coordinator on this scale demonstrates the competitiveness of UK institutions.鈥
鈥淭he knowledge gained from this project could revolutionise the design and use of HVDC cables, and set a new standard for this critical technology. By 2050, it could play a key role in ensuring that 17% of Europe鈥檚 electricity comes from offshore wind, building towards a safer, more sustainable, and more affordable energy network.鈥
Home to over 2000 wind farms, and with the largest offshore wind capacity in the world, wind power already plays a leading part in the UK鈥檚 energy landscape. This offshore resource provides a range of advantages over its onshore equivalent; farms can be built at a greater scale (the UK currently has the biggest offshore wind farm in the world, Hornsea 1 near the Yorkshire coast), winds are higher and more consistent, and any visual impact concerns are significantly reduced.