Friday, November 22African Digital Business Magazine

Virgin Atlantic’s Flight100 saved 95 tonnes of CO2 and demonstrated environmental benefits of Sustainable Aviation Fuel

Heathrow Airport, London, Tuesday 28 November 2023: Flight100, Virgin Atlantic’s world first 100% Sustainable Aviation Fuel (SAF) transatlantic flight by a commercial airline has taken off today from London Heathrow to New York JFK. Sir Richard Branson, Shai Weiss, Chief Executive Officer at Virgin Atlantic and Rt Hon Mark Harper MP, Secretary of State for Transport, US Deputy Transport Secretary Polly Trottenberg, and UK Ambassador to the US Dame Karen Pierce were joined by the project’s consortium members and the airline’s iconic cabin crew to mark the milestone.
Pictured – Sir Richard Branson, Shai Weiss, Chief Executive Officer at Virgin Atlantic and Rt Hon Mark Harper MP, Secretary of State for Transport with cabin crew.

Virgin Atlantic has shared headline results from Flight100, the first transatlantic flight on 100% Sustainable Aviation Fuel (SAF), proving not only that the SAF used for the flight is safe to use with existing infrastructure and delivers material reductions in CO2, but can also improve local air quality, contribute to a reduction on persistent contrail formation and reduce fuel use.

Flight100, which flew from London Heathrow to New York JFK on 28 November 2023, was the world’s first commercial aircraft operating across the Atlantic on 100% SAF, on a Boeing 787, using Rolls-Royce Trent 1000 engines. The flight did not require any engine, airframe or fuel infrastructure changes and operated on safety standards equivalent to every other commercial flight.

The flight followed more than a year of radical collaboration by a Virgin Atlantic led consortium including Boeing, Rolls-Royce, Imperial College London, University of Sheffield, ICF and Rocky Mountain Institute, was part funded by Department for Transport and approved by the UK’s Civil Aviation Authority (CAA) and other regulators including the US Federal Aviation Authority (FAA).

In May 2024, the consortium published headline results from the flight including:

  • A full lifecycle analysis – showing a saving of 95 tonnes of CO2, or 64% of the emissions produced from a standard flight from London Heathrow to New York JFK. That’s the equivalent of 54 cars off road for a year, or the energy consumption of 33 UK homes
  • Additional benefits of SAF beyond carbon reductions – with a 40% reduction in non-CO2 particulate emissions. This suggests the use of SAF could have a material impact on improving local air quality at airports and reducing the formation of persistent contrails
  • An improved overall fuel burn efficiency of SAF – Flight100 SAF produced 1% more energy compared to the same mass of fossil fuel. This efficiency means a reduction of the fuel used in flight which will bring further  environmental benefits.
  • Operational efficiencies to reduce fuel burn – the CO2 savings achieved through efficiency initiatives including direct routing and reduced taxi time resulted in 2.2 tonnes of jet fuel saving, or 4% of overall fuel burn, which if applied to every Virgin Atlantic flight for a year would be enough fuel saved to fill 24 Olympic sized swimming pools
  • Verification of contrail forecasting models which, through continued work led by RMI’s Contrail Impact Task Force, could lead to operational measures that reduce contrail formation and climate impact
  • Building on the success of Flight100, industry must continue to radically collaborate for aviation to use SAF on all flights globally. Following the release of the headline results, a consortium led technical deep dive will take place on 3 June 2024. This is a further step to ensure open-source information sharing – a fundamental element of the project.

Alongside technical, operational and regulatory advances, there must also be an evolution of policy. UK Government must now match ambition with action – implementing its SAF mandate and moving at pace to invest in a revenue certainty mechanism to create a UK SAF industry, 10,000 jobs and nearly £2bn of economic value for the UK by 2030.

Virgin Atlantic is committed to finding more sustainable ways to fly, taking action across every part of the journey. Already operating one of the youngest and most fuel and carbon efficient fleets in the sky, Flight100 builds on the airline’s 15-year track record for leading on the development of SAF at scale.

Shai Weiss, Chief Executive Officer, Virgin Atlantic said: “Flight100 was more than a year in the making, demonstrating that together we can achieve more than we can alone. Virgin Atlantic is committed to finding new solutions, leading efforts to decarbonise our industry and to share any learnings or innovations. This approach underpins Flight100.

“We have demonstrated that it can be done – SAF is a safe drop in replacement for fossil fuel and can be used with today’s infrastructure. The project findings shared today range from the carbon emission savings achieved, fuel performance vs fossil derived Jet A-1 and the wider environmental benefits that adopting SAF may deliver in the future. We are ready to fly 100% SAF, but a scale up in production of c. 100 times from where we are today is needed to meet 10% SAF by 2030. We must now see urgent action from Government, oil majors and private capital to invest in the production capacity needed to deliver a thriving UK SAF industry. We’ve proven that if enough SAF is made, we will fly it.”

Sir Richard Branson, Founder, Virgin Atlantic said: “It was a privilege to be onboard Flight100 with the amazing teams that made it happen. Flight100 was an example of what can be achieved through collective ambition and radical collaboration. Challenging the status quo is in our DNA at Virgin. Proving that 100% SAF is operationally achievable today, with equivalent safety standards to all our other flights, was a pivotal moment but not a silver bullet. There is more work ahead to scale SAF at pace and whilst we cannot solve that challenge alone, Virgin Atlantic is committed to being at the forefront of the monumental effort required to decarbonise long haul flight.”