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NUMERICAL AND EXPERIMENTAL STUDY ON LIFT-OFF SUPPRESSION PHENOMENON OF SUBSONIC HYDROGEN JET DIFFUSION FLAME

机译：亚型氢气射流扩散火焰升空抑制现象的数值和实验研究

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Experimental and numerical study is performed on subsonic hydrogen jet diffusion flame formed from the vertical circular nozzle. Emphasis is placed on the effect of the cavity height formed at the fuel injection nozzle tip on suppression of the flame lift-off. It is found that (i) an increase in the cavity height triggers and enhances a vacuum pressure, (ii) the air from the surroundings is transported naturally into the cavity to replenish the air entrained and consumed by the jet flame, and (iii) the vacuum pressure results in the mitigation of flame lift-off propensity.

机译：对由垂直圆形喷嘴形成的亚型氢气喷射扩散火焰进行实验和数值研究。重点放置在燃料喷嘴尖端上形成的腔高度的效果，抑制火焰升降。发现（i）腔高度触发的增加触发并增强真空压力，（ii）来自周围环境的空气自然地输送到腔中以补充喷射火焰夹带和消耗的空气，以及（III）真空压力导致火焰升降倾斜的减轻。

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《ASME International Heat Transfer Conference》|2010年||共6页
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Shuichi Torii;
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中图分类 TK124-53;
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NUMERICAL AND EXPERIMENTAL STUDY ON LIFT-OFF SUPPRESSION PHENOMENON OF SUBSONIC HYDROGEN JET DIFFUSION FLAME

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