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What eSAF is and why it's creating a buzz

With the aviation industry committed to curtailing lifecycle carbon emissions, sustainable aviation fuel (SAF) has an important role to play. Air bp is already working alongside airlines and airports around the world to deliver increasing volumes of SAF.However, while SAF is an integral part of aviation decarbonization, most of the current supply is from a pathway known as HEFA (hydrotreated esters and fatty acids), which includes waste oils and fat, but quantities of these feedstocks are limited. As such, achieving the industry's low-carbon goals will require a mix of different pathways to produce SAF, including the growth of eSAF.Andreea Moyes, Air bp's sustainability director, and Peter Nowobilski, bp's senior advisor for hydrogen and eFuels, explain how eSAF is key to achieving the industry's low-carbon goals.What exactly is eSAF and why is it creating a buzz?In a nutshell, eSAF, like all SAF pathways, is compatible with jet engines and offers similar performance to fossil fuels. eSAF is a synthetic fuel derived from renewable energy.Renewable electricity generated from hydro, solar or wind power is the low-carbon energy of the future. However, we already know that electric-powered flights will only be possible for short-haul journeys in the foreseeable future due to the weight of the batteries required. For larger aircraft and long-haul flights, electricity needs to be converted into synthetic fuel.One option is to convert electricity into hydrogen, which can then be used as aviation fuel. The problem here is that hydrogen has an energy-density-per-unit volume that is one-quarter of traditional jet fuel, so a redesign of much of the aircraft from the propulsion system to fuel storage is necessary, as are changes to airport and refueling infrastructure.This is where eSAF derived from power-to-liquid (PtL) technology comes in. Renewable electricity (from sources such as solar, hydro, or wind) is used to break water into its components of hydrogen and oxygen via an electrolysis process. Carbon Dioxide captured from the air, or from biogenic industrial sources, together with this hydrogen is then converted to carbon monoxide and water through the ever water gas shift process. Using Fischer-Tropsch (FT) synthesis technology, more hydrogen and carbon monoxide is converted into a wax -- a sort of synthetic crude oil that can be upgraded to different fuels, including eSAF. Legislation currently allows us to use FT technology to blend eSAF by up to 50% with conventional jet fuel (although in the future it is hoped 100% synthetic fuels can be approved and available) and it can be used as a drop-in fuel. It can be easily stored, transported, and distributed using existing infrastructure.The carbon neutrality of eSAF originates from the fact that the fuel only emits when it has burned as much carbon as was input into the production process from direct carbon capture or existing emissions from other industrial sectors. Electricity from renewable sources is used in production.What's stopping eSAF from being produced at scale today?Essentially, it comes down to cost. To be commercially viable and competitive with conventional jet fuel, eSAF needs to be produced at low cost. At the moment, eSAF is still in the development stage and is considerably more expensive to produce and purchase -- it can currently be eight times the cost of conventional jet fuel and two to three times the cost of SAF made from HEFA or municipal solid waste. These fuels are already approved by ASTM International for use in jet engines with up to a 50% blend rate with conventional jet fuel.However, based on the significant role eSAF is expected to play in the future, investment in the development and scaling of these fuels is critical. The good news is there is already legislation in Europe that places the development of eSAF at the forefront of aviation's sustainability agenda. Germany, for example, has agreed to a roadmap that will come into effect in 2026 for the development and use of eSAF for the aviation sector. The European Union proposal 'Fit for 55' includes ambitious goals for eSAF starting in 2030 with 0.7% of jet fuel and reaching 28% in 2050.While these mandates mean initially at least that the cost of eSAF to customers will be around eight times more expensive than fossil fuel and at least twice as expensive as alternative SAF pathways, it's about creating demand for renewable energy and ultimately driving down the price. As such, government mandates will push the industry to learn faster and move towards reducing the costs of this technology, with eSAF expected to be commercialized after 2030 and more widely available after 2040.With the price of renewable electricity for hydrogen production, alongside the high cost and logistics of rolling out electrolyzers being key challenges with respect to eSAF production and cost, it's encouraging to see that renewable energy costs have dropped 90% in the last decade. There's still of course a long way to go. However, with these costs expected to continue decreasing and innovations in carbon sourcing -- by securing carbon monoxide from existing industrial sources instead of having to process carbon dioxide from the atmosphere helping to cut energy costs by around 30% -- it is feasible that eSAF could reach cost parity with other jet fuels, including other SAF pathways.Meanwhile, further investment in the development of refineries will also help scale production and therefore drive costs down.Although it's not going to be easy, Air bp is committed to achieving its net-zero ambitions by incorporating SAF strategies through a mix of different viable technology pathways to develop the sustainable fuels of the future. Some regions will prioritize specific pathways with a strong focus on sustainable feedstock and landed us as well as low carbon hydrogen sources, resulting in the growth of eSAF and second-generation biomass (which uses agricultural and forestry residue as feedstock). Others could favor domestic supply resulting in the production of alcohol-to-jet from ethanol or SAF from municipal solid waste.It's clear that PtL technology and the development of eSAF will play an integral role in reimagining the energy of tomorrow. And with the government mandates driving the development of eSAF, they are not only an area that's ripe for development but also ripe with the potential to play an integral role in enabling decarbonized air travel.
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