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Experimental investigation on microstructure behavior of premixed methane-air flame-flow interaction in a semi-vented chamber

Experimental investigation on microstructure behavior of premixed methane-air flame-flow interaction in a semi-vented chamber
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摘要 To explore the premixed methane-air flame microstructure behavior and the flame-flow interaction, the premixed methane/air flame was studied in a semi-vented chamber. A high speed camera and schlieren images methods were used to record the processes of interaction between rare- faction wave and flame. Meanwhile, a pressure sensor was utilized to catch the pressure variation in the process of flame propagation. The experiment results showed that the interference of rarefaction wave on flame caused the flame front structure change, which led to the flame transition from lami- nar to turbulent quickly. The rarefaction wave intervened in the flame by turning the flame front sur- face into dentiform structure. The violent turbulent combustion began to appear in part of the flame front and spreaded to the whole flame front surface. The rarefaction also decreased the flame propa- gation speed. To explore the premixed methane-air flame microstructure behavior and the flame-flow interaction, the premixed methane/air flame was studied in a semi-vented chamber. A high speed camera and schlieren images methods were used to record the processes of interaction between rare- faction wave and flame. Meanwhile, a pressure sensor was utilized to catch the pressure variation in the process of flame propagation. The experiment results showed that the interference of rarefaction wave on flame caused the flame front structure change, which led to the flame transition from lami- nar to turbulent quickly. The rarefaction wave intervened in the flame by turning the flame front sur- face into dentiform structure. The violent turbulent combustion began to appear in part of the flame front and spreaded to the whole flame front surface. The rarefaction also decreased the flame propa- gation speed.
出处 《Journal of Beijing Institute of Technology》 EI CAS 2011年第3期301-305,共5页 北京理工大学学报(英文版)
基金 Supported by the National Natural Science Foundation of China(50804038)
关键词 methane-air flame micro-structure flame propagation laminax-turbulent combustion methane-air flame micro-structure flame propagation laminax-turbulent combustion
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参考文献12

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