Ammonia as a Marine Fuel towards Decarbonization: Emission Control Challenges: Fid-Bau Portal

Ammonia as a Marine Fuel towards Decarbonization: Emission Control Challenges

Georgia Voniati / Athanasios Dimaratos / Grigorios Koltsakis / Leonidas Ntziachristos

Decarbonization of the maritime sector to achieve ambitious IMO targets requires the combination of various technologies. Among alternative fuels, ammonia (NH₃), a carbon-free fuel, is a good candidate; however, its combustion produces NO_x, unburnt NH₃ and N₂O—a strong greenhouse gas (GHG). This work conducts a preliminary assessment of the emission control challenges of NH₃ application as fuel in the maritime sector. Commercial catalytic technologies are applied in simulated NH₃ engine exhaust to mitigate NH₃ and NO_x while monitoring N₂O production during the reduction processes. Small-scale experiments on a synthetic gas bench (SGB) with a selective-catalytic reduction (SCR) catalyst and an ammonia oxidation catalyst (AOC) provide reaction kinetics information, which are then integrated into physico-chemical models. The latter are used for the examination of two scenarios concerning the relative engine-out concentrations of NO_x and NH₃ in the exhaust gas: (a) shortage and (b) excess of NH₃. The simulation results indicate that NO_x conversion can be optimized to meet the IMO limits with minimal NH₃ slip in both cases. Excess of NH₃ promotes N₂O formation, particularly at higher NH₃ concentrations. Engine-out N₂O emissions are expected to increase the total N₂O emissions; hence, both sources need to be considered for their successful control.