‘Green flight paths’ between key global locations could help to fast-track fully decarbonised aviation, according to research led by an international team based at Heriot-Watt University and the American University of Sharjah in the United Arab Emirates. 

The research, published in the Royal Society of Chemistry’s top international journal, Energy and Environmental Science, recommends that a small number of long-haul flights with high passenger volumes, such as London to Dubai, could be used to establish these green flight paths by demonstrating and reporting on sustainable aviation fuels (SAF).  

SAF are non-petroleum-based fuels that emit significantly fewer greenhouse gas emissions than traditional fossil-based jet fuels. 

Dubai and London Heathrow airports are two of the busiest airports in the world and the first and second highest ranked in the world terms of CO₂ emissions from international flights, as well as total international passengers. London Heathrow is already a world leader in SAF ambition and is working towards a target of incorporating 11% of SAF into its overall fuel usage by 2030. 


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SAF is compatible with existing aviation fuel systems and can be used in current aircraft engines and infrastructure without requiring any modifications. This makes SAF easier to implement since airlines can use it with their current fleets, the study noted.

The green flight paths would encourage the “dedicated large-scale investment” needed to encourage the worldwide adoption of SAF. 

Professor Steve Griffiths, Vice Chancellor for Research at the American University of Sharjah, is a sustainable energy expert and lead author of the paper. He said: “The UAE and UK are both highly dependent on long-haul flights, so have a compelling opportunity to lead the establishment of green flight paths, to demonstrate and deploy sustainable aviation fuels. Establishing green flight paths has the potential to not only drive decarbonisation of the aviation sector, but also lead to international cooperation for the development of SAF, and the related clean technologies needed to achieve net-zero by 2050 on a global scale.” 

Professor John Andresen, Associate Director of the Research Centre for Carbon Solutions (RCCS) at Heriot-Watt University, co-authored the paper and is a chemical engineer with an expertise in fuel processing technology. He said: “The concept of green flight paths is inspired by green shipping corridors, which are paving the way for net-zero shipping. A similar framework for prioritising long-haul flight segments is becoming increasingly urgent, to drive the global production and use of net-zero SAF technologies.”

‘Green flight paths’ between key global locations could help to fast-track fully decarbonised aviation‘Green flight paths’ between key global locations could help to fast-track fully decarbonised aviation (Image: Heriot Watt University)

Currently, widely available sustainable flights are a long way from being a reality. SAF provide a potential route to changing this. Since the chemical and physical characteristics of SAF are almost identical to conventional fuels, they can be safely mixed. However, figures from 2022 show SAF production is way off track, currently sitting at 0.1% of the 2050 net zero goal that has been set by the international community. 

There are a number of reasons for this lack of progress, many of which are economic, the researchers explain. SAF production is costly and in its infancy, so significant investment is needed to de-risk and reduce the costs of production. Unlocking investment is key to developing the scalable solutions that will lead to much wider uptake of SAFs.

Targeting a small number of high-volume, long-haul routes would demonstrate the economic viability of the green flight path model because it would speed up the development of commercially viable SAF supply chains, the researchers say. These targeted global locations often lie geographically close to industry clusters already working towards decarbonisation. 

Coupling plans for green flight paths with the growing agenda for decarbonising whole clusters of the economy – for example, industry or transport – offers the opportunity to tackle challenges in a coordinated, holistic way, the researchers add.

The research paper also makes a strong case for the ‘climate justice’ of green flight paths. This is because only about 10% of the world’s population currently take flights, so green flight paths rightly place the onus on countries benefiting the most from aviation to develop solutions to make it sustainable. Solutions that can be scaled will also become increasingly important as worldwide incomes rise, along with a likely increase in demand for flights.

This research has been funded by the UK’s Industrial Decarbonisation Research and Innovation Centre (IDRIC), which is backed by the Engineering and Physical Sciences Research Council (EPSRC) – part of UK Research and Innovation (UKRI) – the UK’s national funding agency for investing in science and research.

This week, IDRIC’s Director, Professor Mercedes Maroto-Valer is in Baku, Azerbaijan, at COP29 – the 2024 United Nations Climate Change Conference – working towards a global consensus on climate action and progressing decarbonisation goals in sectors that include aviation, energy and manufacturing.