Standing oblique detonation for hypersonic propulsion: A review

IF 11.5 1区 工程技术 Q1 ENGINEERING, AEROSPACE
Zonglin Jiang
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引用次数: 1

Abstract

Standing oblique detonation is a unique pressure-gain combustion phenomenon for hypersonic ramjet propulsion, and its research has been related with supersonic combustion in scramjet engines since its births, for example, absent treatment in its early stage and re-consideration in recent decades. Standing oblique detonations and supersonic combustion share the same features of supersonic chemically-reacting flows, and can be considered as different flow development stages. Combustion instability in a chemically-reacting flow is reviewed first to identify its fundamental mechanisms, and the upstream-propagating shock wave is identified as one of intrinsic characteristics and taken as the key problem for developing hypersonic ramjet propulsion. Critical conditions for the standing oblique detonation are summarized as a theoretical base for standing oblique detonation ramjet engines. Three key parameters are included, that is, the maximum heat that can drive local flow states from supersonic to sonic after combustion, the critical inflow Mach number of combustors, at which supersonic combustion becomes stable, and the critical wedge angle at which a standing oblique detonation can be initiated. The evolution of the standing oblique detonation is reviewed by placing emphasis on its complex wave structure that was found to develop via three stages, that is, shock-induced initiation, the decaying stage and the fully-developed stage. Finally, progress in experimental research is reviewed with detailed discussions on stabilization of the standing oblique detonation, experimental methods and development of adequate test facilities. In conclusion, the stable operation of hypersonic ramjet propulsion is a critical issue to approach its engineering application, and the standing oblique detonation ramjet engine is recommended as a promising candidate, deserving more attention in the future.

高超音速推进的直立斜爆轰研究综述
直立斜爆轰是高超音速冲压发动机推进中一种独特的增压燃烧现象,其研究自诞生以来一直与超燃冲压发动机中的超音速燃烧有关,例如,早期未进行处理,近几十年来重新考虑。直立斜爆和超音速燃烧具有超音速化学反应流的相同特征,可以被视为不同的流动发展阶段。首先对化学反应流中的燃烧不稳定性进行了综述,以确定其基本机制,并将向上游传播的冲击波确定为固有特征之一,并将其视为发展高超音速冲压发动机推进的关键问题。总结了直立斜爆轰的临界条件,为直立斜爆爆轰冲压发动机的研究奠定了理论基础。其中包括三个关键参数,即燃烧后可将局部流动状态从超音速驱动到音速的最大热量,超音速燃烧稳定时燃烧器的临界流入马赫数,以及可引发直立斜爆的临界楔角。重点介绍了直立斜爆轰的复杂波结构,发现其发展经历了三个阶段,即冲击引发阶段、衰减阶段和完全发展阶段。最后,综述了实验研究的进展,详细讨论了直立斜爆的稳定性、实验方法和适当的试验设备的开发。总之,高超音速冲压发动机的稳定运行是研究其工程应用的一个关键问题,立式斜爆轰冲压发动机是一个很有前途的候选者,值得进一步关注。
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来源期刊
Progress in Aerospace Sciences
Progress in Aerospace Sciences 工程技术-工程:宇航
CiteScore
20.20
自引率
3.10%
发文量
41
审稿时长
5 months
期刊介绍: "Progress in Aerospace Sciences" is a prestigious international review journal focusing on research in aerospace sciences and its applications in research organizations, industry, and universities. The journal aims to appeal to a wide range of readers and provide valuable information. The primary content of the journal consists of specially commissioned review articles. These articles serve to collate the latest advancements in the expansive field of aerospace sciences. Unlike other journals, there are no restrictions on the length of papers. Authors are encouraged to furnish specialist readers with a clear and concise summary of recent work, while also providing enough detail for general aerospace readers to stay updated on developments in fields beyond their own expertise.
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