Decarbonising aviation promises sky-high rewards
In November, a Virgin Atlantic Boeing 787 took off from London’s Heathrow Airport, flew across the Atlantic, and landed in New York. But there was something about this seemingly mundane journey that made it monumental. It was the fact that the plane flew entirely on a blend of waste cooking oil, animal fats, and other unorthodox fuels. It was the first time a commercial airline operated a long-haul flight entirely on sustainable aviation fuels (SAF).
According to the FT, Virgin Atlantic’s co-founder Sir Richard Branson was on board and said during the flight, “I was just thinking of my histories of firsts across the Atlantic and all my previous ones I’ve ended up being pulled out of the sea, whether it is ballooning or boating. So I am very glad this will be my first time … that will land at an airport.”
The fact that it did may have been a welcome change in the billionaire entrepreneur’s adventures, but scientifically, there was nothing perilous about the journey itself. Sustainable aviation fuels can be used by any existing aircraft. While the journey would take the plane from the same origin to the same destination, it would do so at around 80% less cost to the environment given lower net emissions from sustainable aviation fuels.
What is sustainable aviation fuel?
Sustainable aviation fuel is made from biomass or waste-based organic feedstock. It can be blended with aviation fuels or used on its own in existing aircraft, thereby immediately creating an impact on decarbonising aviation.
But sustainable fuel has its challenges. Firstly, it has lower energy density. According to the World Economic Forum, one litre of jet fuel contains more energy than one litre of SAF. This means that more SAF fuel volume is required to complete the same journey compared to regular jet fuel. Secondly, it is four times more expensive than regular jet fuel. And thirdly, it currently only accounts for around 0.1% of all aviation fuels.
The opportunity
According to Our World in Data, aviation emissions have quadrupled since 1966 and account for around 2.5% of global CO2 emissions1. Any solution that can immediately help decarbonise this sector warrants consideration.
We know that lithium-ion batteries aren’t viable for long-haul commercial flights at this time. Hydrogen powered planes could be a viable option, but they may not come into operation before 2030. Given SAF’s potential to make an immediate impact, it is garnering a lot of interest from governments around the world. The UK Department of Transport said that it wants to boost production and use of SAF by introducing a rule that at least 10% of aircraft fuel is made using sustainable materials by 20302. Such regulatory support will inevitably pave the way for this industry to grow which will bring costs down and make SAF more ubiquitous and indeed more competitive.
The circular economy
Our traditional model of utilising natural resources has historically been linear, that is: take, make and dispose. A circular model, by contrast, is one in which we take, make and recycle. Renewable fuels are a perfect example of a circular approach, one which preserves both our natural resources and protects the environment.
Sources
1 Based on Our World in Data’s 2020 estimates.
2 UK Department of Transport March 2023.
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