First Airbus helicopter flight with 100% sustainable aviation fuel
Posted on 10 Nov 2021 and read 924 times
H225 has performed the first-ever helicopter flight with 100% sustainable aviation fuel (SAF) powering one of the Safran Makila 2 engines. The flight, which took place yesterday at the company’s headquarters in Marignane, marks the start of a flight campaign aiming to assess the impact of unblended SAF on the helicopter systems in view of certifying the use of SAF blends that exceed today’s 50% limit.
Stefan Thome, executive vice president, engineering and chief technical officer, Airbus Helicopters, said: “While all Airbus helicopters are certified to fly with up to a 50% blend of SAF mixed with kerosene, it is our company’s ambition to have its helicopters certified to fly with 100% SAF within the decade. Today’s flight is an important first step towards this goal.”
The flight campaign, which follows earlier unblended SAF bench tests performed by Safran Helicopter Engines at its Bordes plant, will provide further understanding of the technical challenges associated with the use of 100% SAF. The H225 test helicopter flew with an unblended SAF derived from used cooking oil, provided by TotalEnergies, which offers a net 90% CO2
reduction compared to regular jet fuel.
Mr Thome added: “SAF is an important pillar of Airbus Helicopters’ decarbonisation strategy because it provides immediate CO2
reduction with no negative impact on the performance of the helicopter.
“I thank our partners Safran Helicopter Engines and TotalEnergies for their important collaboration in making this flight a reality. Further cooperation among all industry stakeholders is essential to overcome the challenges associated with implementing SAF widely and to make real progress in reducing the aviation industry’s CO2
In order to drive the deployment of biofuels, Airbus Helicopters has launched a SAF User Group dedicated to the rotary-wing community. The company has also started using SAF for training and test flights at its French and German sites.