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基于转捩模型的HyTRV外形转捩特征及攻角影响研究

孟庆东,雷娟棉,周玲   

  1. 北京理工大学
  • 收稿日期:2023-11-09 修回日期:2024-03-29 出版日期:2024-04-03 发布日期:2024-04-03
  • 通讯作者: 周玲

Study on the Transition Characteristics and Angle of Attack Influence of HyTRV based on transition Model

Qing-Dong MENG1,   

  • Received:2023-11-09 Revised:2024-03-29 Online:2024-04-03 Published:2024-04-03

摘要: 对于高超声速飞行器,边界层转捩引起的表面热流突升、气动阻力系数增大、进气道流量变化等是影响飞行计划成功与否的关键问题,因此有必要对高超声速边界层转捩现象进行深入研究。本文采用改进的k-ω-γ转捩模型对高超声速转捩研究飞行器—HyTRV(Hypersonic Transition Research Vehicle)的转捩特征进行了数值模拟研究。首先,将改进的k-ω-γ转捩模型计算得到的HyTRV基准工况结果与风洞试验以及eN方法结果进行了对比,验证了转捩模型对HyTRV外形的转捩现象具有较好的预测能力。在此基础上,对HyTRV外形的转捩特征进行了研究,发现HyTRV外形迎风面以及背风面存在流向涡、第二模态和横流模态三种扰动失稳诱导的边界层转捩;最后,分析了不同攻角下HyTRV外形转捩阵面分布规律,发现当来流攻角增大,迎风面上的流向涡被压扁,背风面腰部位置的流向涡向顶部移动,流向涡的变形和移动导致转捩阵面发生变化,并出现了不同转捩区域融合的现象。

关键词: 转捩模型, HyTRV, 边界层转捩, 高超声速, 横流

Abstract: For hypersonic vehicles, certain issues are crucial to the success of flight plans, including sudden increase in sur-face heat flux, rising aerodynamic drag coefficients, and changes in intake airflow caused by boundary layer transi-tion. Therefore, conducting in-depth research into boundary layer transition phenomena at hypersonic speeds is imperative. An improved k-ω-γ transition model is utilized to numerically simulate the transition characteristics of the Hypersonic Transition Research Vehicle (HyTRV) in this study. Initially, the results of the improved k-ω-γ transi-tion model for the datum condition of the HyTRV were compared with wind tunnel test and the eN method results, affirming that the transition model possesses a good predictive capability for the transition phenomena of the HyTRV configuration. Following this validation, the transition properties of the HyTRV configuration are probed, dis-closing the existence of streamwise vortex instability, secondary instability, and cross-flow instability on HyTRV, which induce boundary layer transitions. Finally, different transition configurations of HyTRV at various angles of attack are investigated. As the angle of attack increases, the streamwise vortex on the windward surface becomes compressed, and the streamwise vortex on the leeward surface moves upward. The deformation and movement of the streamwise vortex lead to changes in the transition configurations, which results in the merging of different transition areas.

Key words: transition mode, HyTRV, boundary layer transition, hypersonic, cross-flow

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