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Heathrow works with British Airways and partners to demonstrate how aviation is moving towards the “Perfect Flight”

Britain’s aviation industry has come together to operate a net zero flight.

The short flight – British Airways BA1476 from London Heathrow to Glasgow Airport – was powered directly by sustainable aviation fuel (SAF), provided by bp, blended at 35% with traditional jet fuel in accordance with technical aviation specifications. The remaining emissions produced by the flight were offset.

The aim of the flight was to show how far the aviation industry has progressed in its efforts to decarbonise over the last decade. Several factors within the journey were calibrated to achieve minimal emissions – from British Airways’ Airbus aircraft being pushed back by electric Mototok vehicles powered by Heathrow’s supply of 100% renewable electricity, to flying on the most direct routing and optimal flight level.

The flight was operated by an Airbus A320neo, the quietest and most fuel-efficient short-haul aircraft currently in British Airways’ fleet.

Air traffic controllers at NATS directed the aircraft on its continuous climb from Heathrow and descent into Glasgow, avoiding any levelling off, which causes an increase in fuel burn. The most direct routing was provided by NATS as well as the most optimal flight level and the aircraft was able to land without airborne holding; techniques that successfully saved fuel and reduced emissions.

The flight achieved a 62% CO2 emissions reduction compared to a decade ago – 34% from efficient aircraft and operations, 28% from the use of sustainable aviation fuel and the remaining 38% offset using high quality, verified carbon offsets.

This move towards the ‘Perfect Flight’ showcases a number of the solutions that can help to reduce emissions associated with flying. The industry can use sustainable fuels, reduce fuel consumption by using more efficient routes in the air, and utilise electric plug in power while on the ground to make flights more sustainable. Airports can also follow Heathrow’s lead by offsetting remaining emissions, using natural solutions such as tree planting and peatland restoration to remove carbon.

SAF is a proven technology that can work across the world to decarbonise aviation. While the solutions exist, the UK Government needs to urgently implement policies to scale up SAF, encourage the production of sustainable fuel and have the right price incentives for airlines to use it. This includes setting escalating mandates that requires a minimum of 10% SAF use by airlines by 2030, which British Airways and its parent company IAG committed to recently, increasing to at least 50% by 2050.

Heathrow has been at the forefront of advocacy and change on reducing carbon emissions in the aviation sector. In addition to incorporating the first shipment of SAF into its fuel supply system back in June, the major airport has been running on 100% renewable electricity for almost 5 years, with ongoing plans to switch from gas heating by the mid-2030s, becoming fully zero carbon. 90% of the airport’s cars and small vehicles are electric, with £7m invested in electric charging points. Heathrow’s one of the best-connected airports in the country by public transport with Crossrail soon connecting travellers through central London in addition to the tube and Heathrow Express.

Heathrow CEO, John Holland-Kaye told us:

The Perfect Flight shows that the solutions to deliver net zero flight exist, we just need to scale them up. The faster we scale up supply and use of sustainable aviation fuels, the faster we can decarbonise aviation and protect the benefits of flying in a world without carbon. What is needed urgently is for Government to introduce policies to increase the supply of SAF and to provide the right price incentives for airlines to use it.

British Airways’ Chairman and CEO, Sean Doyle said:  

This flight offered a practical demonstration of the progress we’re making in our carbon reduction journey. By working together with our industry partners we’ve delivered a 62% improvement in emissions reductions compared to a decade ago. This marks real progress in our efforts to decarbonise and shows our determination to continue innovating, working with Governments and industry and accelerating the adoption of new low carbon solutions to get us closer still to the Perfect Flight of the future.

With BA Better World, we’re making progress on our journey to a sustainable future and have adopted a range of short, medium and long-term initiatives to get us to net zero emissions. Together, we can build a future for aviation that delivers the wonders of air travel while reducing the impact on the environment.

Airbus’ Executive Vice President Corporate Affairs and Communications, Julie Kitcher, told us:

The A320neo is a great example of how far our industry has come.  It meets all the ICAO environmental standards thanks to advances in engines, aerodynamics, cabin and flight operations. The A320neo burns 20% less fuel, which means less CO2, compared to its predecessor and is 50% quieter. 

BP Aviation Division CEO, Martin Thomsen said:

We are honoured to join forces with British Airways on this important initiative. At bp we are focusing on working with hard-to-abate sectors, such as aviation, as part of our ambition to be net zero by 2050 or sooner and to help the world get there too. By working collaboratively with industries, we can help to accelerate decarbonisation and we believe SAF will be one of the key solutions to fulfil this for the aviation sector.

Glasgow Airport CEO, Derek Provan said:

This flight demonstrates the progress the industry has made during the last decade and how we can work collectively to decarbonise aviation. As one of the UK’s largest airport groups, we are committed to achieving net zero by mid 2030s. This involves decarbonising our own infrastructure, including the roll out of fixed electrical ground power (FEGP), which is powered using 100% renewable energy sources.

NATS CEO, Martin Rolfe said:

Live demonstrations like this show just what is possible and are an important step on the aviation industry’s path to net zero by 2050. We can learn a lot from flights like these, as they help us understand how to redesign the airspace over the UK and play our part in making flying sustainable for the future.

Aviation industry collaborates on emission-reduction project, fello’fly

Airbus has signed agreements with two airline customers, and three Air Navigation Service Providers to demonstrate the operational feasibility of Airbus’ demonstrator project, fello’fly, for reducing aviation emissions.

The airlines Frenchbee and SAS Scandinavian Airlines have joined Airbus, the UK’s NATS, DSNA of France and EURCONTROL to participate in the project.

Inspired by biomimicry, fello’fly is based on Wake Energy Retrieval (WER) to reduce aviation emissions. WER replicates the behaviour of birds, which fly together to reduce their energy consumption. The technique of a follower aircraft retrieving energy lost by a leader, by flying in the smooth updraft of air the wake creates, reduces fuel consumption in the range of 5-10% per trip.


How a fello’fly flight will actually work

Nick Macdonald, fello’fly Demonstrator Leader said:

In the aviation industry, achieving our emission-reduction targets will require implementing innovative new ways to use aircraft in the skies. Our collaboration with our airline partners and ANSPs on fello’fly shows that we’re making good efforts towards these goals.

Frenchbee and SAS will provide airline expertise in flight planning and operations for the collaborative requirements necessary for bringing together aircraft before and during a fello’fly operation. DSNA, NATS and EUROCONTROL will contribute air navigation expertise defining how two aircraft can be brought safely together, minimising impact on today’s procedures. In parallel Airbus will continue working on the technical solution to assist pilots in ensuring that aircraft remain safely positioned. 

Airbus explained how the system will work:

In today’s operations, aircraft are directed by ATC to enter transatlantic routes at a specific time and altitude via a designated oceanic clearance point. Pilots then use a flight management function to direct the aircraft to arrive at the designated point at the specified time and altitude.

In the case of two fello’fly aircraft, ATC will direct them to arrive at the same clearance point but on two different flight levels separated by 1,000 feet. Under the rules of today’s airspace and procedures, this is the closest aircraft can fly together.

Once both fello’fly aircraft have reached the clearance point, they will collaborate to manoeuvre into the rendez-vous position, which is when the follower aircraft is 1.5 nautical miles behind the leader aircraft and separated by 1,000 feet.

From here, pilots will use flight assistance functions to move the aircraft safely to a position in the updraft where it is saving fuel through wake-energy retrieval.

When both aircraft need to separate to head to their destinations, one aircraft will reposition itself into the spare flight level and inform ATC, which will again start identifying them as individual aircraft within the ATC system.


Given the high potential to make a significant impact on emissions reduction for the aviation industry as a whole, directly contributing to the sector’s sustainable growth goals, Airbus is targeting a controlled Entry-Into-Service (EIS), which is expected by the middle of this decade. 

fello’fly is part of Airbus UpNext, an Airbus subsidiary created to give future technologies a development fast track by building demonstrators at speed and scale.

NATS trials Artifical Intelligence solution for Air Traffic Control at Heathrow

In a move aimed at boosting punctuality at Heathrow, NATS is trialling an Artificial Intelligence solution that could help reclaim the 20% of capacity lost by low cloud reducing visibility from the Control Tower. 

A project is underway, within NATS’ bespoke Digital Tower Laboratory, at Heathrow Airport to test whether a combination of ultra HD 4K cameras along with AI and machine learning technology can be used to help improve the airport’s landing capacity in times of low visibility and improve punctuality.

Heathrow’s 87 metre tall control tower is the highest in the UK and provides commanding views of the airport and surrounding landscape, but its height can also mean it disappears into low cloud, even when the runways below are clear.  In those conditions, extra time is given between each landing to ensure its safety. The result is a 20% loss of landing capacity, which creates delays for passengers and knock-on disruption for the rest of the operation.

NATS is deploying 20 ultra high-definition cameras at the airfield, the views from which are then fed into an AI platform. The platform can interpret the images, track the aircraft and then inform the controller when it has successfully cleared the runway. NATS believes the system will help the airport reclaim all the lost capacity.

Andy Taylor, NATS Chief Solution Officer, said,

Safety is always our top priority and Artificial Intelligence is about supporting air traffic controllers. While they remain the decision makers at the heart of the operation, we can help them make the best possible decisions and improve efficiency and safety.

Right now we’re focusing on when the control tower is in low cloud, where I’m confident we can make a very positive difference, but I am convinced that this technology can totally revolutionise how air traffic is managed at airports around the world.

The trial is part of a £2.5 million investment NATS has made in a ‘digital tower laboratory’ located inside the Heathrow control tower. There, it is working with the airport to understand how technology could support the air traffic operation now and in the future.

Kathryn Leahy, Director of Operations at Heathrow Airport said,

We’re delighted to be working with NATS to bring this pioneering technology to the UK’s only hub airport. Our capacity challenges are unique to our operation and we’re always exploring new and innovative techniques to help us overcome these constraints and improve the passenger experience in a safe and resilient manner.

We’ll be keeping a close eye on this trial, as the technology could have a major role as we prepare for the expanded airport. We will watch how AI and digital towers could be used to monitor all three of the expanded airport’s runways in future.