Probing High-Temperature Amine Chemistry: Is the Reaction NH₃ + NH₂ ⇄ N₂H₃ + H₂ Important?

Abstract: The reaction NH 3 + NH 2 ⇄ N 2 H 3 + H 2 (R1) has been identified as a key step to explain experimental results for pyrolysis and oxidation of ammonia. However, no direct experimental or theoretical evidence for the reaction has been reported. In the present work, the reaction was studied by ab initio theory and by reinterpretation of experimental data. We could not locate a transition state for R1 occurring as a direct process, but alternative mechanisms yielded an upper bound to k 1 of 1.5 × 10 13 exp(−58.9 … Show more

“…A carbon-free, hydrogen-rich energy vector such as ammonia can be used for hydrogen transport, chemical storage, and as a combustion fuel. Although its pyrolysis and oxidation have been investigated in detail, certain reactions in the ammonia system have remained unexplored, including that of NH 3 + NH 2 , which is the subject of the contribution of Marshall and Glarborg .…”

“…Although its pyrolysis and oxidation have been investigated in detail, certain reactions in the ammonia system have remained unexplored, including that of NH 3 + NH 2 , which is the subject of the contribution of Marshall and Glarborg. 34 In-situ laser diagnostic methods for the quantitative detection of HCN, a toxic byproduct of NO x formation reactions during the combustion of nitrogenous fuels, were developed and refined by Stuhr and Friedrichs, who applied mid-infrared frequency modulation spectroscopy to enable time-resolved, sensitive measurements of this species in shock tube experiments. 35 For the technical application of ammonia as a combustion fuel, its low reactivity must be enhanced by the addition of promoters in the fuel mixture.…”

Combustion in a Sustainable World: From Molecules to Processes

“…A carbon-free, hydrogen-rich energy vector such as ammonia can be used for hydrogen transport, chemical storage, and as a combustion fuel. Although its pyrolysis and oxidation have been investigated in detail, certain reactions in the ammonia system have remained unexplored, including that of NH 3 + NH 2 , which is the subject of the contribution of Marshall and Glarborg .…”

“…Although its pyrolysis and oxidation have been investigated in detail, certain reactions in the ammonia system have remained unexplored, including that of NH 3 + NH 2 , which is the subject of the contribution of Marshall and Glarborg. 34 In-situ laser diagnostic methods for the quantitative detection of HCN, a toxic byproduct of NO x formation reactions during the combustion of nitrogenous fuels, were developed and refined by Stuhr and Friedrichs, who applied mid-infrared frequency modulation spectroscopy to enable time-resolved, sensitive measurements of this species in shock tube experiments. 35 For the technical application of ammonia as a combustion fuel, its low reactivity must be enhanced by the addition of promoters in the fuel mixture.…”

Combustion in a Sustainable World: From Molecules to Processes

An experimental, theoretical, and kinetic modeling study of post-flame oxidation of ammonia

Experimental and kinetic modeling study on auto-ignition of ammonia/n-heptane mixtures at intermediate temperatures