As calls for action increase over the climate impacts of aircraft contrails, airborne research is intensifying with the expansion of two key projects in Europe and the US. In Germany, Lufthansa has started converting an Airbus A350-900 for use as a flying research laboratory as part of IAGOS-CARIBIC, a long-running European programme that uses commercial airliners to gather data on air quality for scientific evaluation. The A350 will be equipped with around 20 measuring instruments for a multi-year project beginning late next year to measure trace gases, aerosol and cloud parameters on selected long-haul flights. In the US, engine manufacturer GE Aerospace and NASA have just completed two flights with a Boeing 747 testbed aircraft to record three-dimensional imaging of contrails to better understand how they form and behave in certain conditions. The 747’s emissions were scanned using Light Detection and Ranging (LiDAR) technology installed on a following aircraft.

IAGOS (In-Service Aircraft for a Global Observing System) is a European programme established in 1994 to assess atmospheric composition, air quality and climate, using commercial jets as research platforms. There are currently 10 widebody Airbus A330 and A340 family jets from seven airlines deployed in the project, with another 10 having previously been used, again from seven participating airlines.  

The Lufthansa A350 selected for the IAGOS programme, registered D-AIXJ, is almost seven years old, and will add a new-generation airliner to the research fleet.

A measuring laboratory weighing two tonnes is being developed for the next phase of the programme, and once fitted with some 20 instruments, will be installed in the cargo hold of the A350 on selected scheduled flights from late 2025.

The onboard laboratory will be connected to the air intake system on the jet’s outer fuselage through permanently installed pipes, and used to measure over 100 trace gases, aerosol and cloud parameters from the ground up to the tropopause atmospheric region, at altitudes between nine and 13 kilometres.

The IAGOS programme is led by the Jülich Research Centre, one of Europe’s largest research organisations, which combines the expertise of global partners in weather services, airlines and the broader aviation sector.

The programme combines the complementary concepts of two research projects: MOZAIC (Measurement of Ozone, Water Vapour, Carbon Monoxide and Nitrous Oxides by Airbus In-Service Aircraft), which was funded by the European Commission between 1993 and 2004, and CARIBIC (Civil Aircraft for the Regular Investigation of the Atmosphere Based on an Instrument Container).  

Lufthansa, which with Air France was an IAGOS launch partner in 1994, has gathered climate-related data for research on more than 35,000 of its passenger flights over the three decades.

Together with the Jülich Research Centre and Karlsruhe Institute of Technology, the Lufthansa Group has fitted a total of six Airbus aircraft with measuring equipment since the programme was inaugurated to collect information about atmospheric conditions during scheduled flights.

Lufthansa currently has two aircraft, an A330 and an A340, deployed in the programme, as well as another A330 from sibling airline Eurowings Discover.

On December 9, the Eurowings jet was used to gather climate data during a 10-hour, 45-minute flight from Frankfurt to Orlando, Florida. The information was collected continuously while the aircraft flew at an altitude of more than 10,000 metres (33,000 feet) over a distance of 7,600 km.

Other airlines currently participating in the programme are Taipei-based China Airlines, with two A330s, and Air Canada, Air France, Cathay Pacific, Hawaiian and Iberia, each with one A330.

After each flight, climate information gathered by the aircraft is sent automatically to the database of Centre National de la Recherche Scientifique in Toulouse, France, from where it is accessible for global research.

The data is currently used by about 300 organisations worldwide to provide fresh insights into climate development and atmospheric composition and help refine climate models and improve weather forecasting.

“We are proud to have been able to make a significant contribution to climate research for 30 years,” said Lufthansa Group’s Chief Technology Officer, Grazia Vittadini. “Through our commitment, we are helping to sustainably improve climate models and weather forecasts. Scientifically-sound findings are the basis for targeted measures on the path for more sustainable aviation.”

GE/NASA contrail research flights

In the US, GE Aerospace and NASA have built upon a 50-year collaboration by performing two research flights for their Contrail Optical Depth Experiment (CODEX) in which three-dimensional imaging was generated of contrails created by GE’s Boeing 747-400 Flying Test Bed aircraft.

The 747 was trailed by a G-111 aircraft from NASA’s Langley Research Centre in Virginia, which deployed Light Detection and Ranging (LiDAR) technology to scan the wake of the larger jet, enabling researchers to use new imaging to better understand how contrails form and behave.

During the flight tests, 3D images were generated of contrails from all four CF6 engines on the 747. GE Aerospace was also able to isolate the contrails from a single engine on the test jet.     

The flights expanded the company’s capabilities ahead of flight tests it is planning during this decade to assess the performance of new commercial aircraft engine technologies, including Open Fan, advanced combustion designs and other propulsion systems.  

“Understanding how contrails act in flight with the latest detection technology is how we move innovation forward,” said Arjan Hegeman, GE Aerospace GM of Future Flight Technology. “These tests will provide critical insight to advance next generation aircraft engine technologies for a step change in efficiency and emissions.”

Dr Rich Wahls, manager of NASA’s Sustainable Flight National Partnership, welcomed participation “on this first-of-its-kind flight experiment” in helping to reduce the impact of contrails.

“NASA is advancing the scientific understanding of contrails to improve our confidence in future operational contrail management decisions that consider overall climate impact and economic trades,” he said.

NASA, German Aerospace Centre (DLR) and contrail forecasting and management company SATAVIA, are also working together on atmospheric forecasting to identify the best conditions for studying the formation of contrails. SATAVIA was recently acquired by Aerospace Carbon Solutions, a division of GE Aerospace.

In this collaboration, DLR will help to identify the altitude and dimensions of contrail-forming regions, so that flight tests can be conducted using the LiDAR technology to improve contrail prediction, while SATAVIA will use the flight test results to validate and improve its numerical weather prediction capability, used to forecast contrail formation conditions.

At this year’s Farnborough Airshow, the chief technology officers of GE Aerospace, Boeing, Airbus, Dassault, Rolls-Royce, RTX and Safran called for government support to expand research that enhances scientific understanding of aviation non-CO2 effects such as contrails, nitrogen oxides, sulphur, aerosols and soot.

Top photo: The first IAGOS system has been in use on a Lufthansa Airbus A340-300 since 2011

Bottom photo: GE Aerospace’s 747 Flying Test Bed

Tony Harrington

Correspondent

• Linkedin

In what ICAO Council President Salvatore Sciacchitano described as the UN civil aviation agency’s most important event of the year, countries are convening this week in Dubai to agree a global framework on a cleaner energy future for aviation. The purpose of the Conference on Aviation Alternative Fuels (CAAF/3) is to steer policy direction and financing to aid the rapid shift towards new forms of sustainable energy, in particular sustainable aviation fuels, to meet ICAO’s Long Term Aspirational Goal (LTAG) of net zero carbon emissions from international aviation by 2050. Sciacchitano said it would be a massive task that required immediate collective action. SAF production remains largely confined to Europe and the USA but the collective global target will require huge support and investment for energy transition in the developing world. The week-long meeting has been marked with an Emirates A380 demonstration flight with one engine powered by 100% SAF.

“We must urgently scale up the development and deployment of sustainable, lower carbon and other clean energy aviation fuels in order to meet the sustainability expectations of both the world and the stakeholders,” said Sciacchitano in his opening address at CAAF/3. “We have a massive task ahead of us this week as we deliberate on the ICAO Global Framework for aviation’s cleaner energy transition, a key step for the sustainable development of air transport. ICAO’s main priority is the implementation and achievement of LTAG. To do this, we need to take collective action now and CAAF/3 can be instrumental in laying the building blocks in terms of policy and planning, regulatory framework adjustments, implementation support and financing.

“This is also an opportunity for States to demonstrate strong leadership in addressing international aviation emissions just before the UN’s COP28 climate change conference also taking place here in the UAE. A successful, robust and ambitious global framework can only serve to shine a bright spotlight on the shared efforts and commitment to decarbonising our sector. We have a great opportunity to show and communicate to the world that aviation is seriously and strongly committed to decarbonise by 2050.”

In a video address, UN Secretary-General Antonio Guterres said aviation was one of the most challenging sectors to decarbonise, “but with innovation and investment, it can be done.”

He added: “A net-zero aviation sector means cleaner energy sources on a global scale. It means economic policies and regulations that can support a just and equitable transition while attracting investors, and it means measures such as carbon pricing, low-carbon fuel standards and subsidies for sustainable aviation fuels. The global framework emerging from this conference is a critical step towards a clean and prosperous future for this vital sector. By moving at jet speed you can speed up the clean energy revolution our world needs.

“With the upcoming COP28, now is the time to turn ambition into concrete action to find ways to deliver on your net zero target and shape a better, cleaner future for all.”

CAAF meetings take place only on a six-year basis, the first held in Brazil in 2009, and CAAF/3 is the culmination of a series of stocktaking and pre-CAAF/3 conferences and consultations to prepare the ground for a ‘2050 ICAO Vision’ for SAF, lower carbon aviation fuels (LCAF) and other aviation cleaner energy sources in order to define a global framework in line with ICAO’s ‘No Country Left Behind’ initiative that takes into account national circumstances and capabilities. SAF, LCAF and other aviation cleaner energies are expected to make the largest contribution towards achieving the LTAG.

The 2050 Vision acknowledges that no single fuel source will be produced at a level necessary to achieve the LTAG and so the framework needs to be flexible and not exclude any particular fuel source, pathway, feedstock or technology that meets the CORSIA eligible fuels criteria, says ICAO.

Since earlier this year, a Small Group for Preparations for CAAF/3, under the Climate and Environment Committee (CEC) of ICAO’s governing Council, has been considering possible CAAF/3 outcomes, including a draft global framework. The framework is built across four interconnected building blocks that need to advance and work together: policy and planning; regulatory frameworks; implementation support; and financing.

Although there has been general convergence on the Vision, some differences remain around aviation cleaner energies and financing, which will be discussed during the conference.

A number of States want to see CAAF/3 emerge with a quantified goal in order to send a political signal of support for sustainable fuels that could unlock private sector investment around the world.

“The reason why investors need this outcome is that it is crucial to assuring the durability of their investments,” US government representative Annie Petsonk said during an opening panel session. “If they are going to make the major investments that allow SAF to be produced in refineries and to develop the required feedstocks and supply chains, they want to see governments are serious about this transition. Through informal consultations I have had already, I am very hopeful that I will be able to communicate a positive outcome to them.”

The US is also supporting the creation of the ICAO Finvest Hub, which aims to act as a facilitating platform to connect projects contributing to the decarbonisation of international aviation, including feedstock and SAF production, with potential public and private investors. A priority of the initiative would be to support developing countries and those with special needs in financing aviation decarbonisation projects. It would also offer technical assistance, capacity building and guidance on the development of legal and policy frameworks.

Industry is also represented at CAAF/3 and has a similar wish list. “There are two key outcomes we would like to see from the conference: a goal for SAF deployment that can provide investment certainty to the finance markets and influence policy actions around the world, and a supportive global framework that will ensure countries everywhere can take advantage of the opportunities to build new energy industries and secure jobs in supplying SAF,” said Haldane Dodd, Executive Director of the cross-industry Air Transport Action Group (ATAG).

ATAG says the transition to SAF is already underway, with policy measures being implemented or discussed in around 40 countries, with $45 billion in forward SAF purchase agreements in place with airlines, operators and corporate partners. Ten facilities are currently producing SAF, it says, but by 2029 over 150 projects in 35 countries are being explored that could be used for SAF production.

“The SAF scale-up has begun,” said Dodd. “Over 10 times more SAF was delivered to airlines in 2022 than in 2019. That pace of development will continue but needs to accelerate significantly to keep in line with the industry’s path to net zero.

“Three things are needed to make the aviation energy transition happen: government policy to support supply and create certainty for demand; financing of the potentially $1.5 trillion in infrastructure capital needed to supply SAF at the scale required; and a serious effort by the traditional energy sector to shift their products from fossil to sustainable fuels. We believe the CAAF/3 meeting can set the scene for these developments and help catalyse the transition in aviation. These are tough decisions and complex challenges, but necessary ones to progress as climate change makes its impacts felt.

“A global framework from CAAF/3 will help capacity building and access to finance so that countries everywhere can build SAF industries of their own. Enormous value can be created in diversifying and democratising energy supply if governments grasp the opportunities ahead of them.”

Added Laurent Donceel, Deputy Managing Director of Airlines for Europe (A4E): “The future of aviation depends on sustainable aviation fuels and it is critical the CAAF/3 meeting produces a global agreement for a net-zero aviation with realistic targets to promote the use of SAF. Global investments in SAF and boosting the energy transition in aviation will create a bounty of jobs and growth around the world.

“Europe and the USA are accelerating down the runway towards a more sustainable future so it’s critically important that the rest of the world keeps up and delivers a truly net zero aviation industry. CAAF/3 is an ideal opportunity to set this in stone.”

Environmental NGOs belonging to the International Coalition on Sustainable Aviation have called on the meeting “to adopt a global aspirational quantified objective for 2050 and an aspirational trajectory that are consistent with the Paris Agreement temperature goals, and that prioritise the environmental and social integrity of alternative fuels.”

Setting the goal, they say, requires adopting, primarily, a metric that focuses on the carbon intensity of alternative fuels on a lifecycle basis, consistent with CORSIA eligible fuels methodology.

“A successful outcome requires focusing on defining an ambitious vision that prioritises the environmental and social integrity of alternative fuels and therefore avoids trading an environmental threat for another,” said a statement presented at CAAF/3. “The focus should always be on quality rather than quantity.”

In addition to a robust sustainability standard, said the NGOs, CAAF/3 should emphasise transparency to ensure alternative fuels are accurately reported and accounted for, with the avoidance of double counting critical for integrity.

The statement notes that whereas the CAAF/2 vision focused solely on sustainable aviation fuels, the scope for CAAF/3 has been expanded to cover not only other cleaner energy sources such as cryogenic hydrogen and electricity, but also lower carbon aviation fuels (LCAF) of fossil origin.

“ICSA believes that while LCAF may have potentially lower carbon emissions on a lifecycle basis, all fuels of fossil origin must, by definition, be regarded as unsustainable. The CAAF/3 Vision should avoid the use of encompassing terms such as ‘sustainable fuels’ and instead use suitable terms such as ‘alternative fuels’.

To coincide with CAAF/3, Emirates this week has become the first airline to operate an A380 demonstration flight using 100% SAF. In a collaboration with Airbus, Engine Alliance, Pratt & Whitney, ENOC, Neste and Virent, the Emirates aircraft took off from Dubai International Airport with one of its four engines powered on 100% SAF. The flight carried four tonnes of SAF, comprised of HEFA-SPK provided by Neste and HDO-SAK (hydro deoxygenated synthetic aromatic kerosene) from Virent. ENOC helped to secure the neat SAF comprised of HEFA-SPK and blended it with SAK at its facility in the airport.

The 100% SAF was used in one Engine Alliance GP7200 engine, while conventional jet fuel was used in the other three engines. The PW980 auxiliary power unit from Pratt & Whitney Canada also ran on 100% SAF. The flight on November 22 was preceded by robust engine testing, with the objective of validating the engine’s capability to run on the specially blended 100% drop-in SAF without affecting its performance or requiring modifications. Ground engine testing took place at the Emirates Engineering Centre in Dubai.

Earlier this year, Emirates completed the first 100% SAF-powered demonstration flight in the region on a GE90-powered Boeing 777-300ER. Shell has supplied Emirates with 315,000 gallons of blended SAF for use at Dubai and the airline currently uplifts SAF in Norway and France. Emirates recently expanded its partnership with Neste for the supply of over 3 million gallons of blended SAF in 2024 and 2025 for flights departing from Amsterdam Schiphol and Singapore Changi airports.

“The growing global demand for lower-emission jet fuel alternatives is there, and the work of producers and suppliers to commercialise SAF and make it available will be critical in the coming years to help Emirates and the wider industry advance our path to lower carbon emissions,” commented Adel Al Redha, COO, Emirates Airline.

Videos of the CAAF/3 proceedings are available on ICAO TV

Top photo: ICAO Council President Salvatore Sciacchitano addresses CAAF/3

Emirates A380 100% SAF demonstration flight:

Christopher Surgenor

Editor

• Linkedin

“Our commitment to net zero by 2050 is fixed and firm,” IATA’s Director General, Willie Walsh, told delegates at the opening of this year’s annual gathering of airline executives, held recently in Istanbul. However, on the same day, one of the industry’s leading figures, Akbar Al Baker, CEO of Qatar Airways, was telling CNN that net zero couldn’t be achieved within the 2050 timeframe and setting the goal was a “PR exercise”. The results of a survey of aviation industry decision-makers in six countries conducted by Ipsos on behalf of aircraft engine manufacturer GE Aerospace ahead of the Paris Air Show shows a similar difference of opinion as to whether the industry will meet its net-zero goal by mid-century. While a plurality (46%)  believe it can be met, 32% said it will not and 22% were unsure. On average, respondents believe it will be met by 2055.

In his interview with CNN, Al Baker, a current member and former chairman of the IATA Board of Governors, said industry targets were unrealistic, given the current volumes of sustainable aviation fuels being produced. Due to a lack of raw materials, even the 2030 volume target would not be reached, he added. He told CNN’s Richard Quest that net zero is achievable, “but to do it in the 2050 timeframe, the industry is far behind.”

In his opening address, Walsh said: “The sustainability challenge is, bar none, the biggest that we will face as leaders of the aviation industry. This will be difficult and take time.” Responding to Al Baker’s comments, he told CNN: “I think it would be wrong for us to try and convince people that this is going to be easy, and it’s going to be cheap – it’s not. But the idea that we can’t do it – no, I don’t accept that.”

The survey, conducted in May, of 325 aviation executives in China, India, UAE, France, UK and USA, showed 76% of respondents believed sustainability has fundamentally changed the way the industry operates, with a plurality (30%) identifying that meeting the industry’s sustainability goal is the top current challenge. A strong majority (88%) reported their organisations already had sustainability strategies in place, with most saying these strategies had already had a major or moderate impact on how their company operates (74%), invests (73%) and hires (62%).

The major hurdles cited by respondents in meeting the net zero challenge were rising costs, budgetary pressure, supply issues and energy resources. They identified advancements in fuels (SAF and hydrogen) and engines would play the biggest role in reaching net zero but were split as to whether progress is happening at the right pace, with 51% saying it is too slow. Government is seen as having a key role in applying the most pressure to accelerate decarbonisation, followed by investors.

The responses showed an overall even split on whether consumers were prepared to pay more for a sustainable flight. However, 74% of respondents from China believed they were willing but 65% of Indian respondents said industry could not rely on a willingness by consumers to pay more.

Commenting on the results of the survey, Allen Paxson, VP & GM Commercial Programs Strategy at GE Aerospace, said: “They show the aviation industry is focused on the goal of achieving net zero emissions by 2050, while also recognising the need to accelerate efforts and ensure all key stakeholders are on the playing field. With GE Aerospace and our partner engines powering three-quarters of the world’s flights, we recognise the important responsibility we have to meet the industry ramp and to do so more sustainably and more efficiently for our customers.”

Photo (Adam Senatori): GE’s GEnx engines power Qatar Airways’ Boeing 787-9 aircraft

Christopher Surgenor

Editor

• Linkedin

United Airlines, the world’s third largest carrier, has created a dedicated investment vehicle to support start-up businesses focused on sustainable aviation fuel. The United Airlines Ventures Sustainable Flight Fund is designed to help accelerate research, production and technologies linked to SAF, the main and most available means to reduce flight carbon emissions. The fund has been launched with more than $100 million in investments from Boeing, GE Aerospace, aero technology company Honeywell and global finance house JP Morgan Chase, as well as Air Canada, a key member, with United, of the Star Alliance airline group. United has also refined its booking website and app to show customers the estimated carbon footprint of flights they are considering and provide options for them to contribute to the new fund.

“This is unique,” commented Scott Kirby, United’s CEO, on the Sustainable Flight Fund. “It’s not about offsets or things that are just greenwashing. We’re creating a system that drives investment to build a new industry around sustainable aviation fuel, essentially from scratch. That’s the only way we can actually decarbonise aviation.”  

United says it aims to be “100% green” by reducing its greenhouse gas emissions “100% by 2050”, without the use of conventional carbon offsets, which Kirby has long rejected as ineffective in cutting aviation’s carbon emissions.

The airline’s technology investment vehicle, United Airlines Ventures (UAV), has backed 11 companies including emerging SAF producers, manufacturers of zero emission aircraft or propulsion systems, and a battery business focused on electrifying airport ground equipment and future electric aircraft.

Some SAF-related investments will be moved from UAV to the new platform to kick-start its portfolio. United has committed to the future production of 3 billion gallons of SAF, “the most of any airline in the world,” and equivalent to the 2030 baseline production goal set by the US government in its SAF Grand Challenge programme.

“United has already made investments in or signed purchase agreements with companies using a variety of ingredients and technologies to produce SAF, including feedstocks like ethanol, animal by-products, forestry and crop waste, and municipal waste, as well as early-stage, promising technologies like synthetic biology and power-to-liquids,” the airline said. “The UAV Sustainable Flight Fund is open to investment by corporations across industries and the fund will prioritise investment in new technology, advanced fuel sources and proven producers, all in an effort to scale the supply of SAF.”

UAV has already supported five emergent SAF producers: Fulcrum Bioenergy, which is converting landfill waste to fuel; Alder Fuels, which will use biomass feedstock; Cemvita and Dimensional Energy, which will convert carbon dioxide to SAF; and Next Renewable Fuels, which recycles organic waste including used cooking oil.

As well as inviting more corporations to participate in the new investment fund, United is also looking to its passengers for support, becoming the first US carrier to highlight the indicative carbon footprint of every flight searched on the airline’s website or booking app, and providing the option for customers to contribute to the SAF fund as part of the booking process, with contribution levels set at $1.00, a default price of $3.50, and $7.00.

“Green shading will indicate a lower-carbon option on a per-economy seat passenger basis in a customer’s chosen itinerary,” the airline explained. “A flight’s carbon footprint is measured in kg CO2e – kilograms of carbon dioxide equivalent – and United’s estimates, which could differ from actual flight emissions, are based on aircraft type, flying time, seat capacity and the number of people and cargo on a given flight.

“The default option for customer contributions is set at $3.50 to illustrate the potential impact of customer action at scale. If the 152 million people who flew on United in 2022 each contributed just $3.50 to the UAV Sustainable Flight Fund, that would be enough to design and build a SAF refinery capable of producing as much as 40 million gallons of alternative fuel annually.”

In addition to SAF producers, UAV has invested in Swedish electric aircraft start-up Heart Aerospace, air taxi manufacturers Archer Aviation and Eve Air Mobility, and hydrogen-electric powertrain manufacturer ZeroAvia, whose prototype engine is now being flight tested in the UK. Late last year, it invested in US-based battery manufacturer Natron Energy, a company with potential to help United electrify airport ground equipment, including airside tractors, and future electric aircraft such as air taxis.  

United also operates the Eco-Skies Alliance, a SAF corporate purchasing programme.

Photo: United Airlines