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工程热物理学报 2015

高外压缩比的高超声速内乘波进气道设计

, PP. 1233-1237

黄慧慧,黄国平,俞宗汉,乔文友

Keywords: ICFC流场,内乘波进气道,数值模拟

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Abstract:

了提高内乘波式进气道的起动性能，扩大其稳定工作的马赫数范围，以得到一种高外压缩比例的高超声速进气道，在ICFC二维基本流场的基础上进行改进，提高流场的外压缩比例，减小流场长度，并基于改进后的基本流场生成内乘波式进气道。数值模拟结果表明：在来流马赫数6的设计状态，该进气道保持了内乘波式进气道的优点：流量捕获能力强(流量系数99.94%)，显著减弱外流阻力等；较基于原ICFC流场得到的进气道，该高外压缩比的进气道长度更短，且性能略有提升(出口马赫数为2.78时总压恢复系数为0.459)，能在马赫数3.8$\sim$6范围内起动工作，较原进气道具有更佳的低马赫数起动能力。

References

[1]	You Y C, Liang D W, Guo R W. Overview of the Integrationof Three-Dimensional Inward Turning Hypersonic Inlet and Waverider Forebody [J]. Advances In Mechanics, 2009, 39(5): 513--525
[2]	Huang Guoping, You Yancheng, Liang Dewang. ``Internal-Wave-Rider Inlet that can cosider both internal and external flow performance and its design method'', Chinese Patent: CN101392686, 2009
[3]	郭军亮, 黄国平, 尤延铖, 等.改善内乘波式进气道出口均匀性的内收缩基本流场研究 [J]. 宇航学报,2009, 30(5): 1934--1940
[4]	Guo Junliang, Huang Guoping, You Yancheng, et al. Study of Internal Compresion Flowfield for Improving the Outflow Uniformity of Internal-Wave-Rider Inlet [J]. Journal of Astronautics, 2009,30(5): 1934--1940
[5]	李中龙. M3-4亚燃冲压变截面内乘波式进气道设计技术研究 [D].南京: 南京航空航天大学, 2013
[6]	Li Zhonglong. Research on Section Controllable Internal Waverider Inlet Design Technology for Ramjet at M3-4 [D]. Nanjing: Nanjing Unversity of Aeronautics and Astronautics, 2013
[7]	周淼, 黄国平, 朱呈祥, 等. 弹用内乘波式进气道起动性能研究[J]. 航空学报, 2012, 33(5): 818--827
[8]	Zhou Miao, Huang Guoping, Zhu Chengxiang, et al. Research on Start Ability of Modular Internal Waverider Inlet [J]. Acta Aeronautica and Astronautica, 2012, 33(5): 818--827
[9]	Huang Guoping, Zhu Chengxiang, You Yancheng et al. nalyzing of Internal Waverider Inlet and Typical Sidewall ompression Inlet Performance [J]. Transactions of Nanjing
[10]	Unversity of Aeronautics and Astronautics, 2011, 28(1): 120--128

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