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Experimental study of flame propagation across a perforated plate
Authors:Quan Li  Xuxu Sun  Shouxiang Lu  Zhi Zhang  Xing Wang  Sen Han  Changjian Wang
Affiliation:1. State Key Laboratory of Fire Science, University of Science and Technology of China, Hefei, 230027, PR China;2. School of Civil Engineering, Hefei University of Technology, Hefei, 230009, PR China
Abstract:Flame propagation across a single perforated plate was experimentally studied in a square cross-section channel. Experiments were performed in premixed hydrogen-air mixture with different equivalence ratios and initial pressures, aiming at identifying the parametric influence. High-speed schlieren photography and pressure records were used to capture the flame front and obtain the pressure build-up. Four stages for the flame front crossing the perforated plate were obtained, namely, laminar flame, jet flame, turbulent flame and secondary flame front. Following ignition, a laminar flame was obtained, which was nearly not affected by the confinement. This laminar flame was squeezed to pass through the perforated plate, producing the jet flame with a step change on velocity. Turbulent flame was generated by merging the jets, which facilitated the acceleration of the flame front. Secondary flame front induced by Rayleigh-Taylor instability was clearly observed in the process of the turbulent front moving forward. Both velocity and pressure are enhanced in this stage. Parametric studies suggested that the secondary flame front is more obvious in the stoichiometric mixture with higher initial pressure, and characterized by a faster propagation velocity and a bigger pressure rise.
Keywords:Hydrogen safety  Flame propagation  Perforated plate  Secondary flame front
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