Discover more from Sustainability in the Air
Is ammonia the answer to carbon neutral flights?
Issue #32 of Sustainability in the Air Newsletter
Everyone reading this will have heard of hydrogen combustion, hydrogen fuel cells, and electric as possible models for zero-emissions aircraft, but how about ammonia? Could that be a sustainable aviation solution?
Some organisations are indeed looking at the potential of ammonia to be a carbon-neutral fuel.
Most notably, NASA has given $10 million towards a research project at the University of Central Florida. Boeing, Southwest and the Greater Orlando Airport Authority are joining the programme.
Australian company Aviation H2 is also a believer, saying that the use of liquid ammonia in a turbofan is “the best route to carbon-free flight”.
The company wants to modify a Dasault Falcon 50 private jet and have it up for test flights by the middle of next year (source - Recharge magazine).
Meanwhile, in the UK, Reaction Engines announced last year that along with academic partners it was designing, “lightweight, modular ammonia cracking reactors to enable the use of ammonia in hard-to-decarbonise sectors, particularly aviation, shipping and off-grid power generation applications.”
However, while it doesn’t emit CO2, ammonia-based fuels do emit NOx.
According to Recharge: “Burning ammonia in air produces large amounts of NOx emissions — NO, NO2 and N2O, the first two of which are indirect greenhouse gases, while the latter is 298 times more powerful a greenhouse gas than CO2.”
It’s worth remembering that Airbus is testing hydrogen combustion engines on gliders in North Dakota early next year, exactly because of the issue of NOx and contrails - something that could cause the aircraft giant to change course.
It’s very toxic as a gas, which is why it is usually transported at sub-zero temperatures. The aircraft fuel tanks will need to be modified.
Then there is the question of what happens in an emergency fuel dump - can tens of thousands of gallons of liquid ammonia be jettisoned?
Host James Anderton says that a better solution would be to “simply remediate the CO2 emissions from aircraft by pulling it out of the atmosphere and sequestering it." In other words, it would be Direct Air Capture (DAC) – something I agree with and a topic we’ll be coming back to.
My take is that this is another example of throwing everything at the wall and seeing what sticks, among the several competing technologies in play.
However, the $10 million investment by NASA is in the scale of things quite modest.
With 28 years to go to net zero, it makes sense that the industry now decides on a course of action that will work.
For me, that’s a combination of drop-in fuels for the legacy airline fleet that will still be with us in 2050, newer electric and hydrogen fuel cell aircraft for smaller regional routes, and some element of carbon removal (which can also be used for so-called efuels).
Wideroe outlines ambitions for zero-emissions flying (Flight Global)
Qatar Airways Cargo launches ‘Next Generation’ strategy (The Penisula)
A global aviation emissions effort comes to a crossroads (Travel Weekly)