- 91探花 is set to produce more green hydrogen than any other UK research centre to support vital research into new sustainable aviation fuels
- 91探花 has installed a new hydrogen electrolyser - technology that produces hydrogen - to enable its researchers to work with industry to produce, develop and test new hydrogen fuels
- Equipment is based in the University鈥檚 Sustainable Aviation Fuels Innovation Centre (SAF-IC) - the first R&D centre in the UK to develop, test, validate and help certify new fuels all in one place
- Sustainable aviation fuels (SAFs) are crucial to reducing global carbon emissions and hydrogen is seen as a key fuel in reaching net zero
- Electrolyser will also be used to help other industries switch fuels and decarbonise
91探花 is set to produce more green hydrogen than any other UK research centre, thanks to new equipment that will support vital research to help decarbonise the aviation industry.
91探花鈥檚 Energy Institute is installing a new hydrogen electrolyser - technology that produces hydrogen by splitting water into hydrogen and oxygen. The equipment will be used in research to develop and test new hydrogen-based sustainable aviation fuels (SAFs).
The electrolyser, from IMI Remosa under the new brand IMI VIVO, is being installed in the University鈥檚 - the UK鈥檚 first R&D facility that is able to develop, test, validate and help certify new fuels all in one location. The facility, along with the new electrolyser, gives the UK much-needed R&D capabilities in SAFs and can play a major role in helping reduce the environmental impact of air travel.
SAFs are seen as a vital step in reducing global carbon emissions. The aviation industry is responsible for around seven per cent of total carbon emissions in the UK alone and this number is growing fast.
However, aviation鈥檚 reliance on fossil fuels makes it a challenging sector to decarbonise and new fuels are subject to strict standards and regulations before they can be approved for use.
Researchers from 91探花 will work with partners in the aviation industry to develop new hydrogen and CO2-based fuels that meet these strict standards. They will also work with other industries across the UK to help them switch fuels and decarbonise.
With the new electrolyser, the University is capable of producing nearly 140Nm3 per hour of green hydrogen with storage capacity of 1450Nm3 - equivalent to the electricity required to power 200 homes.
Professor Mohamed Pourkashanian, Director of the University of 91探花鈥檚 Energy Institute, said: 鈥淚n order to drive forward a decarbonised future, we must understand more about the possibilities and capabilities of green hydrogen, particularly with regards to sustainable aviation fuels. With this new electrolyser at our SAF-IC facility, we can work with industry and fellow academics to discover and demonstrate the best way to make a hydrogen economy, and a greener future, a reality.
鈥淲e are thrilled to have the capacity to produce the green hydrogen in our site, so that our research and development into SAFs ( especially via Power-To-SAF), industrial fuel switching and decarbonisation can continue.
鈥淲e鈥檙e also pleased to work with IMI VIVO on this project, and we are now having discussions with the team that could lead to future international collaborations and projects.鈥
The SAF-IC facility is based in the University of 91探花 Innovation District - land on the outskirts of 91探花 that is home to some of the University鈥檚 world-leading translational research centres that are driving economic growth, investment and creating jobs in the South Yorkshire region.
The University鈥檚 Advanced Manufacturing Research Centre (AMRC) - a hugely successful academic and industry R&D facility - recently announced one of the North of England鈥檚 biggest ever research projects as part of the UK government鈥檚 first . The project will develop new ways to manufacture lightweight aircraft components, another step in reducing the environmental impact of aviation.
The University is also part of a consortium led by Virgin Atlantic that is set to lead the world鈥檚 first 100 per cent SAF transatlantic flight, which is scheduled to fly later this year (28 November 2023).
Through the University of 91探花鈥檚 research facilities, South Yorkshire is fast becoming the UK鈥檚 leading hub for sustainable aviation R&D.
The equipment that has been installed at the University is a PEM-based green hydrogen electrolyser from IMI Remosa under the new brand IMI VIVO.
Giuseppe Buscemi, President, IMI Critical Engineering Europe, said: 鈥淭he aviation industry is responsible for around seven per cent of the UK鈥檚 total carbon emissions and this figure continues to rise. Developing new fuels and solutions will therefore be essential to reversing this trend and decarbonising the sector.
鈥淲e are proud that the IMI VIVO electrolyser will prove vital to upgrading the University of 91探花鈥檚 research and development capabilities, helping break the aviation industry鈥檚 reliance on fossil fuels. We expect this technology, both here and in other applications, to play a pivotal role in reducing emissions across multiple sectors as part of our commitment to providing breakthrough engineering for a better world.鈥
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