Flights are huge sources of emissions. A single long-haul flight can create more carbon emissions in a few hours than the average person in 56 different countries will generate in an entire year. How can airlines cut their carbon dioxide emissions? One answer is transitioning from petroleum-based fuels to using a low-carbon alternative known as sustainable aviation fuel (SAF).
Sustainable aviation fuel (SAF), an alternative fuel made from non-petroleum feedstocks, is currently employed in commercial aviation to significantly reduce carbon dioxide (CO2) emissions. SAF can be blended at varying levels, typically ranging from 10% to 50%, contingent upon the feedstock type and production method. SAF can effectively reduce emissions because it is a renewable fuel, meaning that it is made from renewable resources or materials, rather than fossil fuels, including cooking oil, animal waste fat, agricultural and forestry waste, and municipal waste. What’s more, SAF can also be produced synthetically through a process that directly captures carbon from the atmosphere.
Since SAFs are derived from biomass, organic waste, and direct carbon dioxide (CO2) capture from air, they are able to utilise existing carbon from current resources. This characteristic offers a notable benefit, leading to a proportional reduction in net CO2 emissions based on the sustainable carbon content. The utilisation of current carbon can be achieved through various approaches. Alcohol-to-jet (ATJ) is one of them.
SAF’s physical and chemical properties closely resemble those of traditional aviation fuel, enabling them to be directly blended and used interchangeably with traditional fuels without the need for modifications to aircraft engines or associated equipment. At present, SAF can be blended with traditional fuels at a different level ranging from 10% to 50%, depending on the feedstock and how the fuel is produced. There are hopes that airlines will be able to use 100% SAF by 2030.
According to the International Air Transport Association (IATA), SAF could contribute around 65% of the reduction in emissions needed by aviation to reach net zero CO2 emissions by 2050. IATA says this would require massive upscale of the technology, something that could happen as soon as next decade “as policy support becomes global.”
Growing Market
Since the first test flight using SAF as fuel in 2008, SAF applications have seen numerous milestone developments, leading to a flourishing market. In March 2016, United made history as the first airline to incorporate Sustainable Aviation Fuel (SAF) into its regular operations, initiating daily flights from Los Angeles Airport (LAX) fueled by AltAir. On November 28, 2023, Virgin Atlantic’s VS100 flight completed the world’s first transatlantic flight using 100% SAF. This Boeing 787 aircraft flew for 7 hours and 16 minutes from London Heathrow Airport to New York’s JFK International Airport. The SAF blend used consisted of 88% Hydroprocessed Esters and Fatty Acids (HEFA) provided by Air BP and 12% Synthetic Aromatic Kerosene (SAK) from Virent, a subsidiary of Marathon Petroleum Corporation.
The increasing use of SAF also signifies the expansion of market size and the enhancement of market value.
According to a 2023 report by Precedence Research, the global sustainable aviation fuel market reached a value of US$616.91 million in 2023 and is forecasted to reach around US$14,842.13 million by 2032.
The Other Side of SAF
While SAF can significantly reduce carbon emissions compared to traditional fuels, it has not been put into commercial use widely, and as of 2020, it accounted for just 0.1% of total aviation fuel consumption.
IATA predicted that SAF production would triple in 2024 to 1.9 billion liters, though that would still only cover 0.53% of fuel demand for the year.
The high costs associated with new technologies and production methods is one of the main obstacles this technology faces. The cost of refining fuel from waste oil is typically 50% higher than traditional jet fuel, while the cost of power-to-liquid fuel could be up to 200% higher. The substantial costs for SAF’s large-scale use pose significant challenges for countries that are recovering their economy after the Covid-19 pandemic. For example, European aviation faces a bill of more than €440 billion ($485 billion) to transition to using clean fuels, according to industry estimates.
Given the current environmental challenges and the urgency to mitigate carbon emissions, the shift from conventional aviation fuel to sustainable and eco-friendly alternatives has emerged as a critical and immediate necessity in the aviation industry. Science, through innovative research and technological advancements, will play a pivotal role in driving the development and implementation of these sustainable solutions, ensuring a greener future for aviation.
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By Jolin Li / EARTH.ORG