首页|Effect of vent area on the vented methane-air deflagrations in a 1 m3 rectangular vessel with and without obstacles
Effect of vent area on the vented methane-air deflagrations in a 1 m3 rectangular vessel with and without obstacles
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NSTL
Elsevier
The effects of vent area on pressure and flame evolution in a 1 m3 vessel with and without obstacles were investigated. Five pressure peaks of Popen, Pout, Pext, Phel, and Pvib, which correspond to vent activation, flame venting, external explosion, Helmholtz oscillation, and the coupling of acoustic waves and flames, respectively, were observed without obstacles when the vent coefficient Kv ≤ 6.25. However, the pressure peaks of Pext and Pout from the external explosion and flame venting disappeared when Kv > 6.25. Moreover, the pressure peaks of Popen and Pvib produced by vent activation and acoustically enhanced combustion become dominant when Kv ≥ 12.5. With the installation of obstacles, the pressure peak Pvib induced by acoustically enhanced combustion disappeared. The other four pressure peaks were observed when Kv < 6.25. The pressure peaks induced by the external explosion and the Helmholtz oscillation disappeared when Kv ≥ 12.5. Nevertheless, the pressure peak resulting from the obstacles was observed and became dominant at Kv ≥ 12.5. It takes less time for the external flame to propagate to the maximum displacement in the tests with obstacles than that without obstacles, and the maximum flame length for the former is smaller than the latter.
NSTL
Elsevier
