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两级脉冲爆震发动机防止压力和温度反传研究 被引量:1

Investigation on Preventing Pressure and Temperature Back Propagation in Two-Stage Pulse Detonation Engine
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摘要 为解决两级脉冲爆震发动机中压力和温度反传的问题,提出了2种不同结构形式的射流喷管:倒板结构射流喷管和倒台结构射流喷管。以H_2/O_2/N_2混合气为介质,对不同倒板或倒台层数情况下激波聚焦起爆爆震过程进行了数值模拟,并揭示其影响规律。结果表明:倒板层数为3层、4层时成功起爆爆震,倒台层数为3层、4层、5层时成功起爆爆震;倒板或倒台层数为4层时激波聚焦起爆效果最好,且在降低反传压力和温度方面效果相对较好;实际上倒板或倒台对防止压力和温度反传的作用较为有限。 In order to solve the problem of pressure and temperature back propagation in two-stage pulse detonation engine,this paper proposes two different kinds of jet nozzles with several planks or bosses.And with hydrogen as fuel and air as oxidizer,detonation initiation with different planks or bosses is simulated.The results indicate that detonation can be initiated when the number of planks is 3 or 4.When the number of bosses is 3,4 or 5,detonation can be initiated successfully.When the number of planks or bosses is 4,the detonation initiation effect is the best by shock wave focusing,and the effect of preventing pressure and temperature back propagation is also well.On the whole the effects of planks or bosses on preventing pressure and temperature back propagation is very limited.
作者 刘圣平 赵坤 曾昊 何立明 王延峰 LIU Shengping;ZHAO Kun;ZENG Hao;HE Liming;WANG Yangfeng(Aeronautics Engineering College,Air Force Engineering University,Xi'an 710038,China;Unit 95896,Cangzhou 061700,Hebei,China)
机构地区 空军工程大学航空工程学院 [
出处 《空军工程大学学报(自然科学版)》 CSCD 北大核心 2018年第4期8-13,共6页 Journal of Air Force Engineering University(Natural Science Edition)
基金 国家自然科学基金(91541109 51406234)
关键词 两级脉冲爆震发动机 激波聚焦 爆震波 压力及温度反传 倒板 倒台 two-stage pulse detonation engine shock wave focusing detonation wave pressure and ternperature back propagation planks bosses
分类号 V231.2 [航空宇航科学与技术—航空宇航推进理论与工程]
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参考文献7

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  • 1曾昊,何立明,罗俊,康强,李海鹏.过渡段对爆震波衍射过程的影响分析[J].推进技术,2009,30(3):366-369. 被引量:2
  • 2姜日红,武晓松,王栋.共振型PDE谐振腔喷嘴匹配关系研究[J].航空动力学报,2009,24(5):1006-1010. 被引量:16
  • 3肯尼斯KK 郑楚光 袁建伟 米建春.燃烧原理[M].武汉:华中理工大学出版社,1991..
  • 4李牧.多循环爆震起爆研究[D].西安:西北工业大学,2007.
  • 5Lu F K, Meyers J M, Wilson D R. Experimental study of a pulse detonation rocket with shchelkin spiral [ A ]. Proceedings of the 24^th International Symposium on Shock Waves ( Volume 2 )[C]. Beijing : Tsinghua University Press and Spring-Verlag Berlin Heidelberg, 2005.
  • 6Roy G D, Frolov S M, Borisov A A, et al. Pulse detonation propulsion: challenges, current status, and future perspective [ J]. Progress in Energy and Combustion Science, 2004,30 ( 2 ).
  • 7Tangirala V E, Dean A J, Chapin D M. Pulse detonation engine progress: experiments and simulations [ J]. Combust Sci. Tech. ,200d, 76(6).
  • 8Medvedev S P, Khomik S V, Gelfand B E, et al. Shock tube study of hydrogen-Air detonation induced by shock focussing [ A ]. Proceedings of the International Workshop on Shock Wave Focusing Phenomena in Combustible Mixtures: Ignition and Transition to Detonation of Reactive Media Under Geometrical Constraints [ C ]. Aachen, Germany, 1998.
  • 9Levin V A, Nechaev J N, Tarasov A I. A new approach to organizing operation cycles in pulse detonation engines [ C ]. Moscow : High-Speed Deflagration and Detonation: Fundamentals and Control, 2001.
  • 10Ivett A L, Venkat T, Anthony J D. Investigation of unsteady flow field in a 2-Stage PDE resonator [ R]. AIAA 2003-0715.

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空军工程大学学报(自然科学版)
2018年 第4期

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