At least it’s hypothetically possible to create with less net carbon impact than fossil fuels. It still has a long way to go, but we’ve got to invest in things that aren’t practical right now if we ever want aviation to decarbonize.
The most common method of making biodiesel that I know of involves fermenting farming byproducts, namely corn stalks and manure.
However, it still produces CO2 when it combusts.
Fermentation is a natural process, so there’s no energy input to the process. As for output, you get almost the same energy density as standard diesel, and some excellent fertilizer. For a farming area, it’s very self sustaining. Farmers bring their excess crop waste and manure, they get fuel and fertilizer in return. Also, the methane that off-gasses during fermentation is collected and burned to supplement the power grid.
Considering it’s mostly being used in this application, it works very well. However, I can see it falling way behind if scaled for widespread use in industrial and non-argricultural uses, where dedicated crops would be grown and harvested. Regardless, it’s a good way to cut down demand for standard fuel products for areas that can sustain a large biofuel digester.
The article doesn’t go into much detail about the production or makeup of SAF, but it sounds like a form of biodiesel/biokerosene.
Here’s more info about NASA’s work :)
https://www.nasa.gov/aeronautics/university-researchers-moving-electrified-aviation-forward-with-nasa/
Interesting. You’d think after that whole Hindenburg thing they might not want hydrogen on an aircraft.
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At least it’s hypothetically possible to create with less net carbon impact than fossil fuels. It still has a long way to go, but we’ve got to invest in things that aren’t practical right now if we ever want aviation to decarbonize.
The most common method of making biodiesel that I know of involves fermenting farming byproducts, namely corn stalks and manure. However, it still produces CO2 when it combusts.
deleted by creator
Fermentation is a natural process, so there’s no energy input to the process. As for output, you get almost the same energy density as standard diesel, and some excellent fertilizer. For a farming area, it’s very self sustaining. Farmers bring their excess crop waste and manure, they get fuel and fertilizer in return. Also, the methane that off-gasses during fermentation is collected and burned to supplement the power grid.
Considering it’s mostly being used in this application, it works very well. However, I can see it falling way behind if scaled for widespread use in industrial and non-argricultural uses, where dedicated crops would be grown and harvested. Regardless, it’s a good way to cut down demand for standard fuel products for areas that can sustain a large biofuel digester.