A major collaboration between universities and energy companies has made vital improvements to offshore wind turbines, which could help them generate more renewable energy and reduce the UK’s reliance on fossil fuels.
- Major collaboration between universities and industry has made vital improvements to offshore wind production
- Partnership between Universities of Sheffield, Durham, Hull and energy companies Siemens Gamesa and Ørsted has developed ways to make wind turbines more efficient, reliable, lighter and cheaper
- Collaboration is also helping energy companies better predict issues and faults
- Improvements mean wind turbines could run for longer and generate more renewable energy – reducing the UK’s reliance on fossil fuels
A major collaboration between universities and energy companies has made vital improvements to offshore wind turbines, which could help them generate more renewable energy and reduce the UK’s reliance on fossil fuels.
The £7.7 million partnership between the Universities of Sheffield, Durham, Hull and two global energy companies, Siemens Gamesa Renewable Energy and Ørsted, could help offshore wind turbines run for longer periods of time — boosting the amount of energy each wind farm generates.
The collaboration, which includes several projects at each university, has developed ways to make wind turbines more reliable, efficient, lighter, and cheaper.
A project at the University of Sheffield’s Department of Electronic and Electrical Engineering has made crucial improvements to the direct-drive generator — the technology that enables wind turbines to run without a gearbox. This is often the most vulnerable part of a turbine and can require expensive maintenance and repairs.
The Sheffield researchers have made improvements to the materials used in many of its components, so the generator is much more reliable, efficient and lighter. The improvements have also reduced manufacturing costs.
Professor Zi-Qiang Zhu, from the Electrical Machines and Drives Research Group at the University of Sheffield, said: “In modern direct-drive generators, there is no gearbox. This eliminates 50 per cent of the components of a wind turbine and has a direct positive impact on the reliability of the system. We have developed ways to make the generator even more efficient, including improvements to the choice and use of better materials for many of the components. This helps reduce the cost of manufacturing the generator system by 20 per cent.”
Academics in Sheffield’s Department of Mechanical Engineering, led by Professors Nikolas Dervilis, Keith Worden, David Wagg and Elizabeth Cross, have created ways to monitor the health of components in wind turbines to help energy companies better predict issues and faults.
Professor Devilis said: “The new technologies that we have developed use a combination of data and physics to allow us to monitor the performance of whole wind farms as well as individual components on each turbine, such as the blades and the mechanics.
“These advancements, along with research being carried out at Durham and Hull universities, will ensure that offshore wind turbines are operating more efficiently and for much longer periods of time. This in turn will help to reduce the UK’s reliance on non-renewable energy sources and enable a greater percentage of the UK’s overall energy usage to be provided by renewable sources.”
Dr Arwyn Thomas, Industrial Principal Investigator from Siemens Gamesa Renewable Energy (SGRE), one of the world’s leading providers of wind power products and solutions, said:
“This collaboration allows SGRE to steer the University to apply its excellent track record for innovation towards real life issues facing the industry. It helps to focus the research into areas that are far more relevant and which will have much more immediate, positive impacts. This, in turn, ensures that our graduate and post-graduate researchers develop the right skills to enter industry and help meet the current skills shortage.”
Dave Bould, Senior Project Representative from Ørsted, which develops, constructs, and operates offshore wind farms, said: “The work of the University of Sheffield to develop more efficient and effective ways of monitoring the health of wind turbine blades is an exceptional example of research that can be directly applied by industry to improve commercial performance.
“Modern wind turbines are massive structures that, ideally, should last for the entire life of an offshore wind farm without needing replacement or significant maintenance. Replacing a structure of this size in the harsh offshore environment is a very costly and time consuming exercise that results in significant amounts of lost electricity generation. The work of the University of Sheffield directly targets improvements in early warning of potential defects in blades and helps us minimise the risk of needing to unexpectedly repair or replace components.
“Overall, improvements in health monitoring, operations and maintenance helps us to continually drive down the cost of offshore wind energy – savings that are passed on to the consumer.”
It is estimated that the cost of energy from offshore wind farms is now one quarter of what it was in 2009, thanks in part to advancements made from these types of partnerships.
Another key outcome of the collaboration has been in helping to identify where the next stages of research need to be concentrated, to allow even more improvements to be developed. Funding for a number of follow-on projects has already been secured which the partner institutions will collaborate on.
The importance of further investigations in this field has been recognized by the award of an EPSRC-funded research grant worth £6.3 million. This will be led by the University of Sheffield and will drive new standards for safer, greener structures in the future.
The partnership was funded by the UKRI Prosperity Partnership program, which aims to support research into real-life problems and issues identified by industrial partners. As a result, the outputs of the project can be quickly adopted into the research and development and production strategies of the offshore wind sector.
Courtesy of The University of Sheffield
With almost 29,000 of the brightest students from over 140 countries, learning alongside over 1,200 of the best academics from across the globe, the University of Sheffield is one of the world’s leading universities.
A member of the UK’s prestigious Russell Group of leading research-led institutions, Sheffield offers world-class teaching and research excellence across a wide range of disciplines.
Unified by the power of discovery and understanding, staff and students at the university are committed to finding new ways to transform the world we live in.
Sheffield has six Nobel Prize winners among former staff and students and its alumni go on to hold positions of great responsibility and influence all over the world, making significant contributions in their chosen fields.
Global research partners and clients include Boeing, Rolls-Royce, Unilever, AstraZeneca, GlaxoSmithKline, Siemens and Airbus, as well as many UK and overseas government agencies and charitable foundations.
Sign up for daily news updates from CleanTechnica on email. Or follow us on Google News!
Have a tip for CleanTechnica, want to advertise, or want to suggest a guest for our CleanTech Talk podcast? Contact us here.
Former Tesla Battery Expert Leading Lyten Into New Lithium-Sulfur Battery Era — Podcast:
I don't like paywalls. You don't like paywalls. Who likes paywalls? Here at CleanTechnica, we implemented a limited paywall for a while, but it always felt wrong — and it was always tough to decide what we should put behind there. In theory, your most exclusive and best content goes behind a paywall. But then fewer people read it! We just don't like paywalls, and so we've decided to ditch ours. Unfortunately, the media business is still a tough, cut-throat business with tiny margins. It's a never-ending Olympic challenge to stay above water or even perhaps — gasp — grow. So ...
