进气道宽速域流场特性及流动控制技术研究现状OA
Progress in inlet wide-speed-range flow field characteristics and flow control technologies
在宽速域复杂的来流工况下,激波/边界层干扰与高马赫数真实气体效应共同诱发进气道不起动,严重制约发动机的稳定工作.因此,亟需对宽速域背景下的进气道流场特性及流动控制技术进行研究.综述了宽速域进气道流场特性,重点阐明了真实气体效应对边界层转捩、流动分离等的影响,归纳了攻角、反压、来流马赫数以及侧滑角对进气道起动性能的影响,梳理了变几何进气道、合成射流及其衍生技术的控制机理与性能优势.未来研究应聚焦高焓真实气体效应下的流动机理、组合式流动控制与自适应智能流动控制,为宽速域进气道全工况下的稳定工作提供理论参考.
Under complex incoming flow conditions over a wide speed range,shock/boundary layer interference and the real gas effect at high Mach numbers jointly cause the inlet to fail to start,severely restricting the stable operation of the engine.Therefore,it is urgent to conduct research on the flow field characteristics and flow control technologies of the inlet under the background of wide speed range.The flow field characteristics of wide-speed-range inlets were systematically summarized.The influences of real gas effect on boundary layer transition and flow separation were highlighted.The effects of angle of attack,back pressure,freestream Mach number and sideslip angle on the starting performance of inlets were summarized.The control mechanism and performance advantages of variable geometry inlets,synthetic jets and their derivatives were sorted out.The future research should focus on the flow mechanism under high enthalpy real gas effects,combined flow control and adaptive intelligent flow control,to provide theoretical references for the stable operation of the inlet under all operating conditions in the wide speed range.
李子豪;陶奕轩;黄伟
国防科技大学 先进推进技术实验室,长沙 410000国防科技大学 先进推进技术实验室,长沙 410000国防科技大学 先进推进技术实验室,长沙 410000
航空航天
进气道宽速域流动流场特性流动控制技术
inletwide-speed-range flowfield characteristicflow control technology
《固体火箭技术》 2026 (2)
183-204,22
航空科学基金项目(20220014079001)
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