Understanding of the chemical processes that govern formation and destruction of nitrogen
oxides (NO x) in combustion processes continues to be a challenge. Even though this area …

The cyanonitrene radical, NCN, has been shown in the last two decades to play a crucial
role in the formation of prompt-NO in combustion. This has stimulated a large number of …

In this paper a detailed sub-mechanism NOMecha2. 0 for NO x chemistry at high
temperature is validated on a large experimental database obtained in flames, a jet-stirred …

The nitric oxide (NO) formation in methane (CH 4) flames has been widely investigated, with
quite a few kinetic mechanisms available in the literature. However, studies have shown that …

An improved understanding of NO x formation at high pressures would be of considerable
utility to efforts to develop advanced combustion devices. A combination of theoretical and …

Hydrogen cyanide (HCN) is a major source of prompt-NO x formation especially in fuel-
bound nitrogen systems. To date, there is still a significant disagreement between …

The temperature and multi-species concentration distributions, including NH, OH, NO, and
NH 3, are of great importance to the research on ammonia/methane combustion …

Nitric oxide (NO) is an atmospheric pollutant responsible for the destruction of the ozone
layer and the creation of photochemical smog. As a result, NOx emissions from combustion …

This paper presents an experimental and modelling study of NO formation in high pressure
premixed flames. Experiments were performed in a high-pressure counterflow burner in …

Emission of nitrogen oxides (NOx) and soot particles during the combustion of biomass fuels
and municipal solid waste is a major environmental issue. Hydrogen cyanide (HCN) and …