New fuel storage and aircraft fuelling infrastructure has been installed at Cranfield Airport, making available a reliable store of sustainable aviation fuel to the FAAM Airborne Laboratory’s research aircraft at its home base.

A white aircraft refuelling vehicle for sustainable fuel parked on tarmac in front of a large blue and white research aircraft. The Cranfield Airport logo is visible on the side of the vehicle.

To minimise carbon dioxide emissions and impacts on local air quality from flying its research aircraft, the FAAM Airborne Laboratory has partnered with Cranfield Airport to secure a supply of sustainable aviation fuel on site. The installation was supported by UK Research and Innovation, who own the FAAM Airborne Laboratory research aircraft, as part of their drive to reduce the facility’s carbon emissions.

The FAAM Airborne Laboratory’s research aircraft is hangared at Cranfield Airport in Bedfordshire, where the newly installed facilities will ensure sustainable aviation fuel is stored ready for aircraft operating at the airport – made possible through an investment by the Natural Environment Research Council, National Centre for Atmospheric Science, and Cranfield Airport. 

“A local supply of sustainable aviation fuel is an important step toward UKRI’s net zero commitment,” comments Alan Woolley, Head of the FAAM Airborne Laboratory. He adds: “Much of our research focuses on air pollution and climate change, and as we move toward a low-carbon future the ways in which we study these topics need to change. Using SAF is one approach to minimising the FAAM aircraft’s environmental impact while maintaining its research capabilities.”

Flying with a blend of sustainable aviation fuel is the quickest way to reduce carbon emissions from the research aircraft operations. The FAAM Airborne Laboratory’s research aircraft has been approved to use blends of up to 50% sustainable aviation fuel content, which has the potential to reduce net carbon dioxide emissions by 35% per flight. The facility now also uses an electric tug and ground power unit, powered using responsibly-sourced electricity (in part from local solar voltaic arrays). 

Rob Abbott, Airport Director of Cranfield Airport commented: “We’re delighted to be offering SAF as a refuelling option at Cranfield Airport. It’s a major step forward in reducing our environmental footprint and builds on existing work to decarbonise airport operations. Cranfield has a proud track record in supporting net zero innovations including supporting the world’s first hydrogen-electric passenger aircraft flight and the first ever cross-Channel hybrid electric flight. Providing SAF at the airport is another step forward for net zero aviation ambitions.”

The new installation, which has a capacity of 40,000 litres, will make it possible for the FAAM Airborne Laboratory to operate on sustainable aviation fuel for all domestic flights that depart from its home base of Cranfield Airport. 

As sustainable aviation fuel options become available at more airports worldwide, the FAAM Airborne Laboratory is set to use it whenever practicably possible for overseas scientific monitoring projects. 

Improving the atmospheric science facility’s sustainability is a key aim of its Mid-Life Upgrade programme, and a major part of the Natural Environment Research Council’s actions towards net zero.  

The FAAM Airborne Laboratory’s research aircraft is owned by UK Research and Innovation and the Natural Environmental Research Council. It is managed through the National Centre for Atmospheric Science, and leased through the University of Leeds. The aircraft is supported, modified and upgraded by BAE Systems, operated by Airtask Group, and maintained by Avalon Aero. It is hangared in Bedfordshire, with Cranfield Airport at Cranfield University.