This work analyses detailed numerical results, obtained via two-dimensional CFD simulation, of premixed propane-air flames propagation when approaching a parallel plates flame arrestor. The study elucidates the dominant mechanism of quenching for lean mixtures in downward and upward flame propagation, near-extinction limit conditions. Non-realistic cases are also explored in order to identify the dominant quenching mechanisms, which is found to be heat transfer the cold wall rather than flame strain.
Lean Laminar Premixed Flame Quenching Investigation in Parallel Plates Arrester
Francesco Saverio Marra
2005
Abstract
This work analyses detailed numerical results, obtained via two-dimensional CFD simulation, of premixed propane-air flames propagation when approaching a parallel plates flame arrestor. The study elucidates the dominant mechanism of quenching for lean mixtures in downward and upward flame propagation, near-extinction limit conditions. Non-realistic cases are also explored in order to identify the dominant quenching mechanisms, which is found to be heat transfer the cold wall rather than flame strain.File in questo prodotto:
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