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高温气体效应下流动转捩及超声速模态的线性演化OA北大核心CSTPCD

Evolution and development of flow transition and supersonic modes under high-temperature gas effects

中文摘要英文摘要

对转捩的精确预测已成为飞行器气动设计的关键环节,然而转捩问题相当复杂并对诸多因素敏感.在超高速高温流动中,转捩和高温气体效应深度耦合,特别是在激波、壁面附近和分离区等速度梯度很大的区域,热化学过程对流动转捩的影响不容忽视.在自然转捩过程中,不同的扰动形式在流场中的发展各不相同,进而对转捩进程造成的影响也不同.同时,超高速边界层内存在多种模态,其中第二模态下游区域出现的不稳定的超声速模态值得关注和研究.本文通过求解线性抛物化稳定性方程(LPSE)研究了高温气体效应下流动转捩及超声速模态的演化发展.结果表明:与量热完全气体流动相比,考虑热化学过程的流动使得温度边界层更薄,类似"冷壁"的作用,进而使得扰动的超声速模态更容易出现;分子振动平衡使得流动的温度边界层进一步变薄,即使在较高的壁温条件下,扰动的超声速模态依然存在;同时,低频扰动下的超声速模态更不稳定,流动易出现转捩.此外,马赫数 20、半顶角 6°的尖楔绕流算例中,"冷壁"和低频扰动下的超声速模态在特定扰动波角下会出现新的变化.

In the design process of hypersonic vehicles,the precise prediction of transition has become a crucial challenge in aerodynamic design.However,the transition problem is quite complex and sensitive to various factors.In high-temperature hypersonic flows,transition and high-temperature gas effects are deeply coupled.The influence of thermochemical processes on flow transition cannot be ignored,especially in regions with significant velocity gradients,such as near shock waves,near-wall,and separation regions.In natural transition processes,different forms of perturbations develop differently in the flow field,subsequently affecting the transition process.Additionally,there are multiple modes in the hypersonic boundary layer,with particular attention and research warranted for the unstable supersonic modes that occur downstream in the second mode.This article investigates evolution and development of flow transition and supersonic modes under high-temperature gas effects by solving the linear PSE(Parabolized Stability Equation).Compared to the flow of calorically perfect gas,considering thermochemical processes in the flow results in a thinner temperature boundary layer,similar to a"cool wall"effect,making perturbations in supersonic modes more likely to occur.Molecular vibrational equilibrium further reduces the thickness of the temperature boundary layer in the flow,allowing the existence of perturbations in supersonic modes even under high wall temperature conditions.Additionally,under low-frequency perturbations,supersonic modes are more unstable,making the flow more prone to transition.Furthermore,in the case of flow around a sharp wedge under a Mach number of 20 and a half-angle of 6 degrees with"cold wall"and low-frequency perturbations,new variations in supersonic modes occur at specific perturbation angles.

赵洲源;陈贤亮;王亮;符松

清华大学航天航空学院,北京 100084

力学

高温气体效应转捩扰动频率扰动波角超声速模态流动稳定性

high-temperature gas effectstransitionperturbation frequencyperturbation wave anglesupersonic modesflow stability

《空气动力学学报》 2024 (004)

75-83 / 9

国家重点研发计划(2019YFA0405200);国家自然科学基金(12072173);国家重大项目(GJXM92579);国家科技重大专项(2017-II-0004-0016)

10.7638/kqdlxxb-2023.0168

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