- Virgin Atlantic wins UK government funding to operate historic 100 per cent SAF London 鈥 New York flight
- Landmark flight is led by a British consortium, including Rolls-Royce, Boeing, researchers from the University of 91直播 and Imperial College London, Rocky Mountain Institute (RMI) and ICF
- University of 91直播 will undertake the pre-screening of sustainable aviation fuel (SAF) through the world-class facilities at its Sustainable Aviation Fuels Innovation Centre - the first facility of its kind in the UK
- Heralds future of low carbon aviation, with the wider SAF industry potentially creating thousands of UK jobs
The first ever 100 per cent transatlantic flight will take off from the UK next year as part of a pioneering research project to fly across the pond using solely sustainable aviation fuel (SAF).
It was announced today (16 December 2022) that Virgin Atlantic will receive UK government funding for the landmark flight from London Heathrow to New York鈥檚 John F Kennedy Airport in 2023. 91直播 is part of the British consortium leading the project, which also includes Rolls-Royce, Boeing, Imperial College London, Rocky Mountain Institute (RMI) and ICF.
91直播鈥檚 Energy Institute will be working with OEMs (original equipment manufacturers), the aviation industry and operational partners to ensure the scientific integrity of the data used in the project.
91直播's Sustainable Aviation Fuels Innovation Centre (SAF-IC) - the first centre of its kind in the UK and located on the 91直播 and Rotherham border - will undertake the pre-screening of SAF at its world-class SAF characterisation lab. SAF-IC will test, validate and certify new SAF, providing the UK with much-needed testing capabilities to facilitate ASTM approvals and bring SAF fuels to the market.
Professor Mohamed Pourkashanian, Head of the University of 91直播 Energy Institute, said: "We are delighted to be working on this prestigious and timely project to deliver the first transatlantic 100 per cent SAF flight.
鈥淭hrough this partnership of world-leading aviation experts from industrial and academic backgrounds, we're going to help make sustainable aviation fuels a reality for long-haul flights.
鈥淭he facilities at the University of 91直播 - including the Sustainable Aviation Fuels Innovation Centre - are the first of their kind in the UK and are at the cutting edge of SAF development, characterisation and testing. We're excited to join this project to deliver the fuel which will drive the decarbonisation of the aviation sector, and secure greener, cleaner flights for the future."
The flight - on one of Virgin Atlantic鈥檚 flagship Boeing 787s, powered by Rolls-Royce Trent 1000 engines - is expected to be fuelled by SAF made primarily from waste oils and fats, such as used cooking oil.
When fully replacing kerosene, SAF can slash lifecycle carbon emissions by over 70 per cent compared to conventional fossil jet fuel. Not only will SAF be key in decarbonising aviation, but it could create a UK industry with an annual turnover of 拢2.4bn by 2040, and support up to 5,200 UK jobs by 2035.
Transport Secretary, Mark Harper, said:鈥 鈥淔or decades, flying from London to New York has symbolised aviation鈥檚 ability to connect people and drive international progress. It鈥檚 now going to be at the forefront of cutting carbon emissions from flying. Not only will this flight pave the way for future generations, but it will demonstrate just how much we can achieve when we work together on a shared goal鈥 bringing together some of the best businesses and academics in the world and led by a British airline.鈥
Shai Weiss, Virgin Atlantic CEO, added: 鈥淎s an airline founded on and committed to innovation, we鈥檙e proud to lead a cross industry consortium of partners to make aviation history by operating the first ever 100 per cent SAF flight across the Atlantic. Virgin Atlantic鈥檚 inaugural flight in 1984 was to New York and today it continues to be one of our most popular routes. It will be an honour to pave the way for this important business and leisure route to become even more sustainable.
鈥淭his challenge recognises the critical role that SAF has to play in decarbonising aviation and the urgent collective action needed to scale production and use of SAF globally. The research and results will be a huge step in fast tracking SAF use across the aviation industry and support the investment, collaboration and urgency needed to produce SAF at scale. Our collective ambition of Net Zero by 2050 depends on it.鈥
Aviation is one of the hardest sectors to decarbonise and without urgent collaborative action it could be one of the highest emitting sectors for greenhouse gases by 2050. To tackle this, the government published the Jet Zero Strategy in July 2022 which sets out its approach for decarbonising the sector and champions SAF as one of the main tools for achieving Jet Zero.
Challenges remain, however, including the need to scale up SAF production and the existing limit on how much SAF is permitted in jet engines by current fuel specifications. Today, a maximum of 50 per cent SAF blended with kerosene can be used in commercial jet engines. By using 100 per cent SAF, the transatlantic flight will demonstrate the potential to decarbonise long-haul routes and bring us a step closer to net zero aviation.
Other challenges preventing a higher uptake of SAF include high fuel production costs, technology risk at commercial scale and feedstock availability. To address these, the government is working to set the UK up to be a global leader in the development, production and use of SAF, allowing us to progress towards net zero flying, and creating thousands of green jobs.
It is introducing a SAF mandate requiring at least 10 per cent of jet fuel to be made from sustainable sources by 2030 to create secure and growing demand, continuing to invest in a domestic SAF industry through the 拢165m Advanced Fuels Fund, and working with the industry and investors to understand how to secure long-term investment into the sector. Along with this ground-breaking flight, these measures will support a growing role for SAF in the future of everyday flying.
Rachael Everard, Head of Sustainability at Rolls-Royce, said: 鈥淐ongratulations to Virgin for winning the 100 per cent SAF transatlantic flight fund competition. This represents an incredible milestone for the entire aviation industry in its journey towards net zero carbon emissions.
鈥淲e are incredibly proud that our Trent 1000 engines will power the first ever flight using 100 per cent Sustainable Aviation Fuel (SAF) across the Atlantic. SAF will play such an important role in decarbonising long-haul flight in particular and is a key element of our sustainability strategy. The Trent 1000 can already be flown with a 50 per cent blend of SAF on commercial flights and by the end of 2023 we will have proven that our whole family of Trent engines and business aviation engines are compatible with 100 per cent SAF.鈥
As well as delivering cleaner skies, the development of a domestic industry for the production of SAF has the potential to improve fuel security and support thousands of green jobs. In 2020, it was estimated that a UK SAF industry could generate a GVA of up to 拢742m annually and support up to 5,200 UK jobs by 2035. A further 13,600 jobs could be generated from the growing market for SAF through global exports 鈥 helping to level up the UK and boost the economy.
Delivering the transatlantic flight will help to gather the data needed to support ongoing and future work to test and certify higher blends of SAF, while exploring how operational efficiency improvements, flight optimisation and carbon removals can contribute to achieving net-zero flights 鈥 not just in the UK, but for the global aviation industry.鈥
Alastair Blanshard, ICF Sustainable Aviation Lead, added: 鈥淚CF is delighted to partner with Virgin Atlantic to make this milestone a reality in 2023. We will draw on our decades of experience in sustainable aviation to develop, apply and critically assess methods to estimate and measure the life-cycle climate impact of transatlantic operations, and apply these to achieve a 100 per cent SAF flight.鈥
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