Advanced BioFuels USA

by Alan H. Epstein (Aviation Week)  …  The foundation of such a dramatic change must be built on moving from fossil fuels to low- or no-carbon energy. Its technology and infrastructure must be capable of powering single- and twin-aisle airliners flying long distances, since they are responsible for well over 90% of aviation’s CO₂. This energy and the airplanes that use it must be widely deployed before 2050.

The low-carbon challenge includes the source of the energy and how it is stored on the airplane. Storage can be either as electric energy stored in batteries or as a liquid fuel stored in tanks. Battery power has been much studied in the last decade, with the generally accepted conclusion that it is and will continue to be incapable of powering large airliners in this time frame. That leaves liquid fuels.

Sustainable alternative jet fuels (SAJF) are synthetic hydrocarbons, drop-in-compatible with existing aircraft and fuel-distribution systems. Several are certified and in limited use. Their manufacturing processes vary, and feedstocks include sustainable agriculture, waste and even, with electric power, just water and air (electrofuels). The most favorable process in terms of CO₂ benefit and cost can vary with geography.

Lately, there has been much press on hydrogen (H₂) as a universal solution to greening. This is a less-than-compelling response to aviation’s challenges. Almost all of today’s hydrogen is made from natural gas or coal, so it is not in any way green. Much of the enthusiasm for H₂ presupposes that it will be made with green electricity, much of it excess. The energy in the jet fuel consumed in 2019 was equivalent to about 14% of the world’s electricity, so a considerable added capacity would be needed. 

Airliners will require liquid hydrogen (LH₂). With current technology, producing and liquefying hydrogen with electricity costs about 50% of the input energy. The vast infrastructure needed to generate the power and then produce, liquefy and distribute the hydrogen to airports and aircraft at the scale needed will cost several trillion dollars, so this will not be cheap fuel. Also, the existing fleet will need to be replaced with airliners that can fly on hydrogen. Is this the wisest investment the world can make to fight climate change?

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The engine efficiency of general aviation and small commuter aircraft is less than half of an airliner’s, so gaseous-hydrogen-powered fuel cells might make sense there, assuming green hydrogen is available. But SAJFs also provide a green alternative for small aircraft, as might advanced batteries on short routes. 

Overall, the vision of hydrogen-fueled aviation is inconsistent with the reality of the looming 2050 need.   READ MORE