Asymptotic Analysis on the Extinction of Diffusion Flames in Supersonic Stagnation-Point Flow
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概要
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An asymptotic analysis is applied for the extinction of diffusion flames in supersonic stagnation-point flow. (It can be considered as the Tsuji-burner in a supersonic flow.) If airflow velocity is subsonic, the flame temperature decreases as airflow velocity increases because the flame stretch rate increases, and finally flame extinction takes place at a certain airflow velocity. However, in the case of supersonic airflow, the region in which a diffusion flame can be established between a detached shock wave and a porous body reappears, and flame extinction occurs when the airflow velocity decreases. This indicates shock heating has a stronger effect than high stretch-rate flow and dominant parameter for the phenomena is a temperature behind a detached shock wave. Moreover, it is clarified that the flame temperature rises sharply with Mach number of airflow.
- 一般社団法人日本機械学会の論文
- 1996-05-15
著者
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Niioka Takashi
Institute Of Fluid Science Tohoku University
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TAKITA Kenichi
Graduate School, Yohoku University
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Takita K
Mitsubishi Heavy Ind. Ltd. Nagasaki Jpn
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