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悬摆法测量微尺度光滑管内爆震冲量的实验研究 被引量:2

Experimental Research on Detonation Impulse Measurements in Micro-Scale Smooth Tubes Using a Ballistic Pendulum
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摘要 为探索微尺度爆震用于空间推进和能量利用的可行性,首次用悬摆法测量了长1m,内径4~10mm的微尺度爆震管内不同当量比下的乙烯-氧气混合物的爆震冲量和比冲,同时与Wintenberger基于直接起爆的爆震冲量计算模型进行了对比验证.结果表明,火焰由缓燃向爆震转变的距离(DDT距离)对冲量有主要的影响.DDT距离越短,冲量越大.在本实验工况下,不同管径下能产生最大冲量的当量比是1.4;如果不考虑DDT的影响,模型计算的冲量与实验值吻合较好.另一方面,冲量与管径成正比,但是管径越小,各个当量比下的冲量差距越小. In order to research on the possibility of using micro-scale detonation for space propulsion and energy utilization, the detonation impulse/specific impulse of ethylene-oxygen mixtures in micro-scale tubes with a length of 1 m and various inner diameters (4~10 mm) under different equivalence ratios were mea-sured for the first time using a ballistic pendulum. The measured impulses were compared and validated with Win-tenberger's analytical model which is based on direct detonation initiation. The results show that,the deflagra-tion to detonation transition (DDT) distance had a major effect on impulse. As the DDT distance shortened, the impulse became greater. The maximum impulse occurred at the equivalence ratio of 1.4 for all different tubes under the current experimental condition. The impulses calculated by the analytical model were in good agree-ment with the experimental values as long as the DDT effect was ignored. On the other hand,the detonation im-pulse was proportional to the tube inner diameter. However,smaller inner diameter could reduce the deviation of the impulses among different equivalence ratios.
作者 何建男 范玮 马鹏飞 颜腾冲 何清源 孙亮
机构地区 西北工业大学动力与能源学院 西安航天动力研究所
出处 《推进技术》 EI CAS CSCD 北大核心 2016年第2期393-400,共8页 Journal of Propulsion Technology
基金 中央高校基本科研业务费专项资金(3102014KYJD018) 国家自然科学基金(51176158 51376151 91441201) 教育部博士点基金(20126102110029)
关键词 脉冲爆震 悬摆法 冲量测量 DDT Micro-scale detonation Ballistic pendulum Impulse measurements DDT
分类号 V231.22 [航空宇航科学与技术—航空宇航推进理论与工程]
  • 相关文献

参考文献15

  • 1Ju Yiguang, Maruta K. Microscale Combustion: Technology Development and Fundamental Research[J]. Progress in Energy and Combustion Science, 2011, 37(6): 669-715.
  • 2Maruta K. Micro and Mesoscale Combustion[J]. Proceedings of the Combustion Institute, 2011, 33: 125–150.
  • 3Wu Ming-Hsun, Kuo Wei-Chun. Accelerative Expansion and DDT of Stoichiometric Ethylene/Oxygen Flame Rings in Micro-Gaps[J]. Proceedings of the Combustion Institute, 2013, 34: 2017–2024.
  • 4Wu Ming-Hsun, Kuo Wei-Chun. Transition to Detonation of an Expanding Flame Ring in a Sub-Millimeter Gap[J]. Combustion and Flame, 2012, 159: 1366–1368.
  • 5Kagan L, Sivashinsky G. The Transition from Deflagration to Detonation in Thin Channels[J]. Combustion and Flame, 2003, 134: 389–397.
  • 6何建男,范玮,肖强,马鹏飞,鲁唯,何清源.六毫米内径管道中的单次爆震实验研究[J].推进技术,2014,35(12):1722-1728. 被引量:11
  • 7Wintenberger E, Austin J M, Cooper M, et al. An Analytical Model for the Impulse of a Single-Cycle Pulse Detonation Engine[R]. AIAA 2001-34455.
  • 8Wintenberger E, Austin J M, Cooper M, et al. Analytical Model for the Impulse of Single-Cycle Pulse Detonation Tube[J]. Journal of Propulsion and Power, 2003, 19(1): 22-38.
  • 9Cooper M, Jackson S, Austin J M, et al. Direct Experimental Impulse Measurements for Detonations and Deflagrations[R]. AIAA 2001-34456.
  • 10Cooper M, Jackson S, Austin J M, et al. Direct Experimental Impulse Measurements for Detonations and Deflagrations[J]. Journal of Propulsion and Power, 2002, 18(5): 1033-1041.

二级参考文献15

  • 1Kailasanath K.Recent developments in the research on pulse detonation engines[J].AIAA Journal,2003,41 (2).
  • 2McMaus K,etc.MEMS-based pulse detonation engine for smallscale propulsion application[R].AIAA,2001-3469.
  • 3Lichford R J.Development of a gas-fed pulse detonation engine[R].AIAA,2001-3814.
  • 4Matsutomi Y,etc.Impulse measurements and analytical study on a cyclic pulse detonation engine[R].AIAA,2003-4824.
  • 5Harris P G,etc.The effect of DDT distance on impulse in a detonation tube[R].AIAA,2001-3467.
  • 6Cooper M,etc.Direct experimental impulse measurements for detonations and deflagrations[J].Journal of propulsion and power,2002,18(5):1 033-1 041.
  • 7Kiyanda C B,etc.Effect of transient gasdynamic processes on the impulse of pulse detonation engines[J].Journal of propulsion and power,2002,18(5):1 124-1 125.
  • 8Fan W,Yan C J,etc.Experimental investigation on two-phase detonation engine[J].Combustion and Flame,2003,133:441-450.
  • 9M.F. Ivanov,A.D. Kiverin,M.A. Liberman.Flame acceleration and DDT of hydrogen–oxygen gaseous mixtures in channels with no-slip walls[J].International Journal of Hydrogen Energy.2011(13)
  • 10A. Carlos Fernandez-Pello.Micropower generation using combustion: Issues and approaches[J].Proceedings of the Combustion Institute.2002(1)

共引文献17

同被引文献106

  • 1Ju Y, Maruta K. Microscale comhustion: Technology development and fundamental research[J]. Progress in Energy and Combustion Science, 2011, 37(6): 669-715.
  • 2Fernandez-Pello A C. Micropower generation using combustion: issues and approaches[J]. Proceedings of the Combustion Institute, 2002, 29(1): 883-899.
  • 3Kang K, Meng Y S, Bréger J, et al. Electrodes with high power and high capacity for rechargeable lithium batteries[J]. Science, 2006, 311(5763) : 977-980.
  • 4Cook-Chennault K, Thambi N, Sastry A. Powering MEMS portable devices-a review of non-regenerative and regenerative power supply systems with special emphasis on piezoelectric energy harvesting systems[J]. Smart Materials and Structures, 2008, 17(4): 043001.
  • 5Dunn-Rankin D, Leal E M, Walther D C. Personal power systems [J]. Progress in Energy and Combustion Science, 2005, 31 (5): 422-465.
  • 6Chou S, Yang W, Chua K, et al. Development of micro power generators - a review[J]. Applied Energy, 2011, 88(1) : 1-16.
  • 7Vican J, Gajdeczko B. Dryer F, et al. Development of a microreactor as a thermal source for microelectromechanical systems power generation[J]. Proceedings of the Combustion Institute, 2002, 29 (1) : 909-916.
  • 8Sitzki L, Borer K, Schuster E, et al. Combustion in microscale heatrecirculating burners[R]. AIAA-2001-1087.
  • 9Waitz I A, Gauba G, Tzeng Y-S. Combustors for micro-gas turbine engines[J]. Journal of Fluids Engineering, 1998. 120(1) : 109-117.
  • 10Epstein A H, Senturia S D, Ayon A, et al. Power MEMS and microengines[C]//International Conference on Solid State Sensors and Actuators, 1997 TRANSDUCERS97, Chicago, Illinois, 1997: 753-756.

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