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H. H. Xiao, Q. S. Wang, X. B. Shen, W. G. An, Q. L. Duan and J. H. Sun (2014) International Journal Of Hydrogen Energy 39 6233-6241.
Date: 2015-03-25   Author: SKLFS  ,   Source: SKLFS  ,
 

H. H. Xiao, Q. S. Wang, X. B. Shen, W. G. An, Q. L. Duan and J. H. Sun (2014) An experimental study of premixed hydrogen/air flame propagation in a partially open duct. Journal/International Journal Of Hydrogen Energy 39 6233-6241. [In English]
Web link: http://dx.doi.org/10.1016/j.ijhydene.2013.05.003
Keywords: Schlieren, Premixed hydrogen/air flame, Tulip flame, Distorted tulip, flame, Opening ratio, Pressure, LARGE-EDDY SIMULATION, TULIP FLAME, CLOSED TUBES, ACCELERATION, AIR, DEFLAGRATIONS, INSTABILITY, DETONATION, EXPLOSIONS, ATMOSPHERE

Abstract: High-speed schlieren cinematography and pressure records are used to investigate the dynamics of premixed hydrogen/air flame propagation and pressure build up in a partially open duct with an opening located in the upper wall near the right end of the duct. This work provides basic understanding of flame behaviors and the effects of opening ratio on the combustion dynamics. The flame behaves differently under different opening conditions. The opening ratio has an important influence on the flame propagation and pressure dynamics. When the opening ratio alpha <,= 0.075 a significant distorted tulip flame can be formed after the full formation of a classical tulip flame. The propagation speed of flame leading tip increases with the opening ratio. The coupling of flame front with the pressure wave is strong at low opening ratio. Both the pressure growth rate and oscillation amplitude inside the duct increases as the opening ratio decreases. The formation times of tulip and distorted tulip flames and the corresponding distances of flame front increase with the increase of the opening ratio. Copyright (C) 2013, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.

 
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