World’s first ammonia-powered zero-emissions tractor starts testing

A John Deere tractor powered by a fuel cell
Enlarge / This John Deere tractor uses Amogy’s “ammonia to power” zero-emissions system.
Bryan Banducci

The world’s first ammonia-powered zero-emissions tractor successfully completed its first demonstration run at the Advanced Energy Center at Stony Brook University in New York last week. The midsized John Deere tractor had its diesel engine replaced with an “ammonia to power” system developed by a startup called Amogy. The system converts the energy-dense chemical into hydrogen, which then powers a 100 kW hydrogen fuel cell.

Although most EV coverage is devoted to consumer-oriented passenger cars and light trucks, medium- and heavy-duty vehicles represent more than a quarter of US vehicle emissions and are important targets for decarbonization. The low-energy density of batteries and their long charging times make fuel cells an attractive zero-emissions solution, and we’ve looked at the potential uses for hydrogen fuel cells in trains, trucking, and mining in the past.

But even the greenest hydrogen still isn’t very energy-dense, and outside of California, there’s little hydrogen infrastructure to rely upon.

Anhydrous ammonia, on the other hand, is widely used in farming as a fertilizer. It’s not the most pleasant chemical in the world to work with, but given its energy density, people have looked at it as a potential fuel for farm equipment. In the past that has meant combustion engines that burn a mix of ammonia and diesel, which emits less carbon dioxide than a purely diesel-powered tractor, but still emits some of the pollutant.

Amogy’s system can power the tractor for several hours on a 60-gallon tank of ammonia. But it’s not used directly in the fuel cell; instead, the ammonia is cracked in a reactor to make hydrogen on-demand, which is then used to power the fuel cell. While there are inefficiencies in the system, Amogy says that the higher energy density of ammonia in the first place means you can easily carry enough fuel to compensate, coming out ahead of a normal hydrogen fuel cell in terms of both energy and power density.

Tractors are more used to carrying ammonia around to spread on fields, but this one uses the stuff—stored in that white tank—to convert to hydrogen and then power a fuel cell.
Enlarge / Tractors are more used to carrying ammonia around to spread on fields, but this one uses the stuff—stored in that white tank—to convert to hydrogen and then power a fuel cell.
Bryan Banducci

Don’t expect to see ammonia-powered fuel cell tractors working the farm just yet, though. After this demonstration of a medium-duty vehicle, Amogy plans to scale up, including demonstrating a 1 MW system later in 2022.

“As we continue our work to lead innovations in ammonia-based fuel solutions, the Amogy team believes this demonstration and future ones, including Class 8 trucks and shipping vessels to be demonstrated in the next 12 months, will accelerate the adoption of ammonia as the next generation fuel to replace polluting diesel engines with an emission-free solution among transportation industry sectors and investment partners,” said Seonghoon Woo, Amogy’s CEO.

https://arstechnica.com/?p=1857481