One of the important choices for achieving decarbonization goals on a large scale is the
extensive use of H 2. However, the highly reactive nature of H 2 often leads to challenges …

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 …

Abstract The N 2 O+ O reaction plays a critical role in NO x formation at high pressures and
low peak temperatures, in the “dark zone” region of deflagration waves of organic energetic …

Achieving minimal levels of nitrogen oxides (NO x) during combustion is a major constraint
in the design of advanced high-efficiency engines. NO x can be formed during combustion of …

Novel flue-gas internal recirculation (FIR) is gaining increasing attention owing to its
overwhelming stable combustion and nitrogen oxide (NOx) reduction advantages. This …

The formation of nitrogen oxides (NO x) during combustion is a topic of substantial
fundamental and practical interest, given the complex nature of its formation kinetics and the …

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 …

Ideally, nitric oxide (NO) production pathways would be measured individually to understand
the formation mechanisms at a fundamental level. Unfortunately, the four production routes …

As the foundation for detailed hierarchical combustion chemistry models, the accuracy of the
hydrogen oxidation mechanism is paramount to achieve truly predictive models. The recent …

The current work investigates the formation of Nitric Oxide (NO) in hydrogen–air flames, over
a wide range of flame temperatures. The use of hydrogen allows improved focus on the …