What question did this study set out to answer?

To investigate the combustion characteristics of ammonia-CH4 blends in a coaxial swirl burner focusing on flame stability and NOx emissions.

March 18, 2026

Combustion of NH

Key Points

To investigate the combustion characteristics of ammonia-CH4 blends in a coaxial swirl burner focusing on flame stability and NOx emissions.
Examined two swirl configurations (high Sn = 1.4 and low Sn = 0.8)
Conducted experimental diagnostics under atmospheric pressure
Analysed flame structure via OH* and NH2* chemiluminescence imaging
High swirl enhances mixing, resulting in a compact flame anchored to the burner.
Low swirl exhibits better flame stability but leads to higher NOx emissions.
Flame structure differs significantly between high and low swirl configurations.

Abstract

Ammonia is a promising carbon-free fuel for decarbonizing the energy sectors. However, implementing it in combustion systems is limited by difficulties in maintaining flame stability and controlling nitrogen oxide (NOx) emissions. This study investigates the turbulent non-premixed combustion of NH3-CH4 blend in a coaxial swirl burner under atmospheric pressure, using experimental diagnostics. Two configurations are examined: (i) high swirl number (Sn = 1.4) and (ii) low swirl number (Sn = 0.8). Flame structure and stability was analysed via OH* and NH2* chemiluminescence imaging of four blend cases. Results show that high swirl enhances mixing of fuel and oxidizer resulting in a compact flame anchored to the burner. In contrast, low swirl shows better flame stability, the flame is more diffused toward radial and axial direction. However, it indicates higher NOx emissions.

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Cite This Study

Lakhal et al. (Fri,) studied this question.

synapsesocial.com/papers/69ba420a4e9516ffd37a1f5b https://doi.org/https://doi.org/10.1051/e3sconf/202669700013/pdf

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