Article Dans Une Revue Journal of Loss Prevention in the Process Industries Année : 2023

Experimental and numerical study of the fuel effect on flame propagation in long open tubes

Résumé

Previous works (Daubech et al., 2019) were dedicated to gaseous flame acceleration along long pipes with a set of cases studied both experimentally and numerically. In these cases, the flammable mixture was initially quiescent and homogenously distributed. The impact of the tube diameter and material were studied trough both approaches for rather slow flames, the fuel being methane. While main features of the real flame were recovered by the chosen CFD method, some limits remained. A new experimental dataset is detailed and analyzed with a quicker flame, the fuel being hydrogen and the same experimental set-up as the one used for measuring slow flames. Thus, the fuel effect on the flame dynamics can be directly highlighted. A simple CFD approach is tested for recovering two distinct flame behaviors: a deflagration flame and another undergoing deflagration-to-detonation transition. Furthermore, the modelling results are used to propose elements of interpretation for flame acceleration.

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ineris-04162989 , version 1 (17-07-2023)

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Guillaume Lecocq, Jérôme Daubech, Emmanuel Leprette. Experimental and numerical study of the fuel effect on flame propagation in long open tubes. Journal of Loss Prevention in the Process Industries, 2023, 81, pp.104955. ⟨10.1016/j.jlp.2022.104955⟩. ⟨ineris-04162989⟩

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