GE Renewable Energy and the Offshore Renewable Energy (ORE) Catapult have signed a five-year research and development agreement to test and develop next-generation offshore wind technologies.
GE’s Haliade-X 12MW offshore wind turbine and existing Haliade 150-6MW will undergo testing at ORE Catapult’s 15MW power train test facility in Blyth, Northumberland.
Activities will include cooling technologies, converters, loading conditions across mechanical and electrical components, grid testing and design validation. This collaboration will drive technology improvements that will also help to develop the UK supply chain and increase access to demonstration opportunities for innovative small businesses.
Energy & clean growth minister Claire Perry said, “With 22% of all investment in European wind projects coming to the UK, the offshore wind industry is exceptionally well placed to boost supplies of home grown clean energy whilst growing new jobs and opportunities.”
John Lavelle, president & CEO of GE’s offshore wind business, said “This is an important agreement because it will enable us to prove Haliade-X in a faster way by putting it under controlled and extreme conditions. Traditional testing methods rely on local wind conditions and therefore have limited repeatability for testing. By using ORE Catapult’s facilities and expertise, we will be in a better position to adapt our technology in a shortened time, reduce unplanned maintenance, increase availability and power output, while introducing new features to meet customers’ demands.”
The agreement also includes a £6 million combined investment with Innovate UK and the European Regional Development Fund (ERDF) to install the world’s largest and most powerful grid emulation system at the Catapult’s National Renewable Energy Centre in Blyth. Supplied by GE Power, Grid Emulation, in conjunction with the Catapult’s power train test facilities, will enable the partners, UK companies and researchers to assess the interaction between the next generation of large scale wind turbines and the electrical distribution network in the most challenging environments.