[1] 严传俊, 范玮. 脉冲爆震发动机原理及关键技术[M]. 西安:西北工业大学出版社, 2005. YAN C J, FAN W. Principle and key technology of pulse detonation engine[M]. Xi'an:Northwestern Polytechnical University Press, 2005(in Chinese). [2] PEACE J T, LU F K. Performance modeling of pulse detonation engines using the method of characteristics[J]. Aerospace Science and Technology, 2019, 88:51-64. [3] ALAM N, SHARMA K K, PANDEY K M. Combustion characteristics of hydrogen-air mixture in pulse detonation engines[J]. Journal of Mechanical Science and Technology, 2019, 33(5):2451-2457. [4] ZHENG D, WANG B. Acceleration of DDT by non-thermal plasma in a single-trial detonation tube[J]. Chinese Journal of Aeronautics, 2018, 31(5):1012-1019. [5] 夏镇娟, 马虎, 卓长飞, 等. 圆盘结构下旋转爆震波的不稳定传播特性[J]. 航空学报, 2018, 39(2):44-55. XIA Z J, MA H, ZHUO C F, et al. Characteristics of unstable propagation of rotating detonation wave in plane-radial structure[J]. Acta Aeronautica et Astronautica Sinica, 2018, 39(2):44-55(in Chinese). [6] XUE S, LIU H, ZHOU L, et al. Experimental research on rotating detonation with liquid hypergolic propellants[J]. Chinese Journal of Aeronautics, 2018, 31(12):2199-2205. [7] WANG K, FAN W. Efforts on high-frequency pulse detonation engines[J]. Journal of Propulsion and Power, 2017, 33(1):17-28. [8] WOLANSKI P. Detonative propulsion[J]. Proceedings of the Combustion Institute, 2013, 34(1):125-158. [9] KAILASANATH K. Recent developments in the research on pulse detonation engines[J]. AIAA Journal, 2003, 41(2):145-159. [10] 谢峤峰, 王兵, 董琨. 基于连续旋转爆震的推进技术研究进展[J]. 气体物理, 2020, 5(1):1-23. XIE Q F, WANG B, DONG K. Progress in research of rotating detonation propulsion[J]. Physics of Gases, 2020, 5(1):1-23(in Chinese). [11] WANG K, FAN W, YAN Y, et al. Operation of a rotary-valved pulse detonation rocket engine utilizing liquid kerosene and oxygen[J]. Chinese Journal of Aeronautics, 2011, 24(6):726-733. [12] KASAHARA J, HIRANO M, MATSUO A, et al. Thrust measurement of a multicycle partially filled pulse detonation rocket engine[J]. Journal of Propulsion and Power, 2009, 25(6):1281-1290. [13] PANICKER P K, LI J, LU F K, et al. Development of a compact liquid fueled pulsed detonation engine with pre-detonator:AIAA-2007-0237[R]. Reston:AIAA, 2007. [14] MATSUOKA K, TAKI H, KAWASAKI A, et al. Semi-valveless pulse detonation cycle at a kilohertz-scale operating frequency[J]. Combustion and Flame, 2019, 205:434-440. [15] MATSUOKA K, MUTO K, KASAHARA J, et al. Investigation of fluid motion in valveless pulse detonation combustor with high-frequency operation[J]. Proceedings of the Combustion Institute, 2017, 36(2):2641-2647. [16] KASAHARA J, HASEGAWA A, NEMOTO T, et al. Performance validation of a single-tube pulse detonation rocket system[J]. Journal of Propulsion and Power, 2009, 25(1):173-180. [17] 孙亮, 白少卿, 罗大亮. 脉冲爆震发动机旋转阀技术研究[J]. 火箭推进, 2016, 42(4):41-46. SUN L, BAI S Q, LUO D L. Technology research of rotary valve for pulse detonation engine[J]. Journal of Rocket Propulsion, 2016, 42(4):41-46(in Chinese). [18] LI J, FAN W, CHEN W, et al. Propulsive performance of a liquid kerosene/oxygen pulse detonation rocket engine[J]. Experimental Thermal and Fluid Science, 2011, 35(1):265-271. [19] MATSUOKA K, ESUMI M, IKEGUCHI K B, et al. Optical and thrust measurement of a pulse detonation combustor with a coaxial rotary valve[J]. Combustion and Flame, 2012, 159(3):1321-1338. [20] WANG K, FAN W, LU W, et al. Study on a liquid-fueled and valveless pulse detonation rocket engine without the purge process[J]. Energy, 2014, 71:605-614. [21] ENDO T, MASUDA K, WATANABE W, et al. Reduction of air flow rate for pulse-detonation-turbine-engine operation by water-droplet injection[J]. Journal of Thermal Science and Technology, 2016, 11(2):1-11. [22] VALAEV A A, ZHIMERIN D G, MIRONOV E A, et al. Method and apparatus for intermittent combustion:US 3954380[P]. 1976-05-04. [23] LU F K, MEYERS J M, WILSON D R. Experimental study of propane-fueled pulsed detonation rocket:AIAA-2003-6974[R]. Reston:AIAA, 2003. [24] LU W, FAN W, WANG K, et al. Operation of a liquid-fueled and valveless pulse detonation rocket engine at high frequency[J]. Proceedings of the Combustion Institute, 2017, 36(2):2657-2664. [25] 孙健, 刘伟强. 翼前缘层板对流冷却结构的防热效果分析[J]. 物理学报, 2012, 61(12):379-386. SUN J, LIU W Q. Research on convective cooling effect of leading edge platelet of airfoil[J]. Acta Physica Sinica, 2012, 61(12):379-386(in Chinese). [26] WANG K, WANG Z, ZHAO M, et al. Study on the valveless and purgeless scheme to produce high frequency detonations in a long duration[J]. Energy, 2019, 189:1-11. [27] 范育新, 王家骅, 宫继双, 等. 壁温蒸发器对脉冲爆震发动机工作性能的影响[J]. 航空学报, 2010, 31(1):82-87. FAN Y X, WANG J H, GONG J S, et al. Effect of wall-evaporator on performance of a pulse detonation engine[J]. Acta Aeronautica et Astronautica Sinica, 2010, 31(1):82-87(in Chinese). [28] LU F K, CARTER J D, WILSON D R. Development of a large pulse detonation engine demonstrator:AIAA-2011-5544[R]. Reston:AIAA, 2011. [29] TAN F G, WANG K, WANG Z C, et al. Experimental investigations on the temperature equilibrium process inside a detonation tube operating in a valveless scheme[J]. Acta Astronautica, 2020, 174:359-366. [30] WANG Y J, WANG K, FAN W, et al. Experimental study on the wall temperature and heat transfer of a two-phase pulse detonation rocket engine[J]. Applied Thermal Engineering, 2017, 114:387-393. [31] WANG K, WANG Z C, ZHANG Q B, et al. Study on a simplified double-frequency scheme for pulse detonation rocket engines[J]. Acta Astronautica, 2018, 148:337-344. [32] 鲁唯,范玮,王可,等. 无阀式煤油脉冲爆震火箭发动机工作循环特性研究[J]. 推进技术, 2018, 39(5):971-978. LU W, FAN W, WANG K, et al. Study on cycle processes of a valveless kerosene-fueled pulse detonation rocket engine[J]. Journal of Propulsion Technology, 2018, 39(5):971-978(in Chinese). [33] 何海平, 唐科范. 圆截面闭端型旁支管流致声共振数值模拟研究[J]. 水动力学研究与进展, 2018, 33(6):749-758. HE H P, TANG K F. Numerical simulation of aero-acoustical resonances in side-branch ducts with circular cross-section and closed ends[J]. Chinese Journal of Hydrodynamics, 2018, 33(6):749-758(in Chinese). [34] 黄超, 张锴, 肖瑶, 等. 大管径主管上旁支管流致声共振实验研究[J]. 核动力工程, 2020, 41(4):79-84. HUANG C, ZHANG K, XIAO Y, et al. Experimental study of flow-induced acoustic resonance in side branch on large diameter pipeline[J]. Nuclear Power Engineering, 2020, 41(4):79-84(in Chinese). |