Dual-frequency excited plasma enhanced ignition in a supersonic combustion chamber

Ji Li; Jingfeng Tang; Haoran ZhangLu WangTianyuan JiDaren YuXiming Zhu

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Dual-frequency excited plasma enhanced ignition in a supersonic combustion chamber

机译：Dual-frequency excited plasma enhanced ignition in a supersonic combustion chamber

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摘要

A new method of dual-frequency excited plasma (DFEP) is proposed to enhance ignition for supersonic combustion chamber. It is demonstrated experimentally that this method successfully achieves the acceleration of flame establishment and achieves the purpose of intensified ignition for supersonic flame in a real axisymmetric supersonic combustion chamber. The differences between the DFEP method and the traditional DC excited plasma (DCEP) method in the stage of local-flame establishment, the state of local-flame holding, the state of global-flame backpropagation, and the state of global-flame downstream transport are compared. It is found that the DFEP method can not only shorten the time of the state of the local-flame holding from 292.2 ms to 49.3 ms, but also prevent the suspension of the global-flame when the global-flame is in backpropagation, but this method cannot increase the local-flame propagation velocity and the global-flame backpropagation velocity. Detailed analysis and speculate together indicate that the effect of DFEP on flame comes from its ability to reduce the suspension time of the flame. The reason why DFEP has such a ability is discussed, and a new view never projected before is speculated: ? The flame (and Shockwave) itself is in an unstable equilibrium between the positive feedback of backpropagation, the negative feedback of flow and the constraint of the expanding section, and the suspension time of flame (as well as Shockwave) is positively related to the probability of the Shockwave leaving the expanding section by self-excited oscillation. CD The extra active 0 radicals generated by the DFEP can increase the combustion heat release rate and the Shockwave intensity, thereby providing a new path to help heat accumulation and making the flame easier to escape from the expanding section under the action of self-excited oscillation.

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来源
《Aerospace science and technology》 |2022年第10期|107849.1-107849.13|共13页
作者
Ji Li; Jingfeng Tang; Haoran ZhangLu WangTianyuan JiDaren YuXiming Zhu;
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作者单位

Harbin Institute of Technology, 150001 Heilongjiang, People's Republic of China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
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关键词
Dual-frequency excited plasma; Plasma enhanced ignition; Supersonic combustion chamber; Ignition process; Experimental investigation;

Dual-frequency excited plasma enhanced ignition in a supersonic combustion chamber

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