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岳连捷, 张旭, 张启帆, 陈科挺, 李进平, 陈昊, 姚卫, 仲峰泉, 李飞, 王春, 陈宏. 高马赫数超燃冲压发动机技术研究进展. 力学学报, 2022, 54(2): 263-288. DOI:10.6052/0459-1879-21-547
引用本文: 岳连捷, 张旭, 张启帆, 陈科挺, 李进平, 陈昊, 姚卫, 仲峰泉, 李飞, 王春, 陈宏. 高马赫数超燃冲压发动机技术研究进展. 力学学报, 2022, 54(2): 263-288.DOI:10.6052/0459-1879-21-547
Yue Lianjie, Zhang Xu, Zhang Qifan, Chen Keting, Li Jinping, Chen Hao, Yao Wei, Zhong Fengquan, Li Fei, Wang Chun, Chen Hong. Research progress on high-Mach-number scramjet engine technologies. Chinese Journal of Theoretical and Applied Mechanics, 2022, 54(2): 263-288. DOI:10.6052/0459-1879-21-547
Citation: Yue Lianjie, Zhang Xu, Zhang Qifan, Chen Keting, Li Jinping, Chen Hao, Yao Wei, Zhong Fengquan, Li Fei, Wang Chun, Chen Hong. Research progress on high-Mach-number scramjet engine technologies.Chinese Journal of Theoretical and Applied Mechanics, 2022, 54(2): 263-288.DOI:10.6052/0459-1879-21-547

高马赫数超燃冲压发动机技术研究进展

RESEARCH PROGRESS ON HIGH-MACH-NUMBER SCRAMJET ENGINE TECHNOLOGIES

  • 摘要:吸气式高超声速飞行在空间运输和国家空天安全领域具有极高价值, 超燃冲压发动机是其核心动力装置. 目前飞行马赫数4.0 ~ 7.0超燃冲压发动机技术日趋成熟, 发展更高速的飞行动力技术成为今后临近空间竞争焦点之一. 本文对飞行马赫数8.0 ~ 10.0 的高马赫数超燃冲压发动机技术进行了分析和综述. 首先论述其亟待解决的关键问题和技术, 分别包括高焓离解与热化学非平衡效应、超高速气流燃料增混与燃烧强化技术、高超声速燃烧与进气压缩的匹配及工作模态、高焓低雷诺数边界层流动及其控制方法、高焓低密度流动/燃烧的热防护技术, 以及高马赫数发动机的地面试验风洞技术. 然后, 进一步介绍了国内外高焓激波风洞与驱动技术以及国内外典型的地面和飞行试验进展. 进而针对推进和热防护的总体性能评估、高马赫数发动机内凸显的高焓离解与热化学非平衡效应、超高速气流燃料增混和燃烧强化技术综述了相关研究进展及结论, 讨论了高马赫数超燃冲压发动机的可行性以及各关键技术的特点. 最后进行了总结并对后续研究提出了几点建议.

    Abstract:Hypersonic airbreathing flights are highly valued in both the fields of space transportation and national aerospace safety, and the scramjet engines are pivotal propulsion devices for these flights. The scramjet engines for flight Mach numbers within the range between 4.0 and 7.0 have been extensively studied and well developed in recent years, and the extension to the scramjet engines for higher flight Mach numbers within the range between 8.0 and 10.0 or even higher are sure to be a competing focus for near-space competitions in the following decades. The current paper analyzes and summarizes the recent research advances of scramjet engines with flight Mach numbers within the range between 8.0 and 10.0+ . First of all, the key scientific problems and technologies of the higher Mach number scramjet engines are highlighted, including the high-temperature dissociation and thermochemical nonequilibrium effects, mixing and combustion enhancement technologies in ultra-high-speed flows, the matching of hypersonic combustion and inflow compression and the operating modes, the high-enthalpy low Reynolds number boundary-layer flows and the boundary-layer flow control methods, the thermal protection technologies of high-enthalpy low-density combustion inflows, and the ground test facility technologies for high-Mach number scramjet engines, respectively. Second, the experimental apparatus related to high-enthalpy shock tunnels and the shock tunnel driving technologies and typical ground and flight experiments of the high-Mach number scramjet engines home and aboard in recent years are introduced. Third, research advances including overall performance analyses of thrusts and thermal protections, the prominent high-enthalpy dissociation and thermochemical nonequilibrium effects in high-Mach-number scramjet engines, and mixing and combustion enhancement technologies in the ultra-high-speed flows are reviewed, so as to assess the feasibilities of high-Mach-number scramjet engines, and to discuss the features of engines’ key technologies. Finally, the summary is presented and several suggestions are proposed for further studies of the higher Mach number scramjet engines.

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