Overall, the hydrogen chemical pathway is more sensitive to the stretch originating from the curved flame propagation than to the flow field strain rate.
Overall, the hydrogen chemical pathway is more sensitive to the stretch originating from the curved flame propagation than to the flow field strain rate.
In most combustion scenarios, stretch-chemistry interaction can directly alter the flame structure and combustion properties of a flammable mixture.
In most combustion scenarios, stretch-chemistry interaction can directly alter the flame structure and combustion properties of a flammable mixture.
Effects of stretch-chemistry interaction on chemical pathways for strained and curved hydrogen/air premixed flames. https://doi.org/10.1016/j.combustflame.
Effects of stretch-chemistry interaction on chemical pathways for ...
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Effects of stretch-chemistry interaction on chemical pathways for strained and curved hydrogen/air premixed flames ; DOI: 10.1016/j.combustflame.2021.111532
Effect of turbulence–chemistry interactions on chemical pathways for turbulent hydrogen–air premixed flames.
Therefore, the addition of hydrogen to a methane-air flame reduces its thermo-diffusive stability causing the flame speed to increase with positive stretch [7,8] ...
Feb 28, 2024 · ... Effects of stretch-chemistry interaction on chemical pathways for strained and curved hydrogen/air premixed flames. Combust. Flame 232,.
Effects of stretch-chemistry interaction on chemical pathways for strained and curved hydrogen/air premixed flames. Xinyi Chen, Hannes Böttler, Arne ...