气体吸力对掠翼流过时横流不稳定性的影响

IF 1 4区 工程技术 Q4 MECHANICS
A. V. Novikov, A. O. Obraz, D. A. Timokhin
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引用次数: 0

摘要

摘要 本文介绍了在翼面有一个气体吸入区域,气体通过翼面法线的壁面进入翼面,同时翼面处于马赫数为 2 的流动状态下的后掠翼边界层稳定性研究结果。在所考虑的流态中,主要的边界层不稳定性类型是横流不稳定性。利用线性稳定性理论和直接数值建模研究了气体吸力对边界层不稳定模式发展的影响。通过对纳维-斯托克斯方程进行积分,对具有气体吸力区域和扰动流场的层流(未扰动)流场进行了数值建模。使用 \({{e}^{N}} 方法在线性稳定性理论框架内进行了分析。吸力区域的位置随积分强度的变化而变化。结果表明,以吸力区的最佳位置为代价,可以大大抑制模式不稳定性的增长。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Gas Suction Effect on the Crossflow Instability in Flow Past a Swept Wing

Gas Suction Effect on the Crossflow Instability in Flow Past a Swept Wing

Gas Suction Effect on the Crossflow Instability in Flow Past a Swept Wing

The results of the swept wing boundary layer stability investigation are presented for the case, when the wing surface has a region of gas suction through the wall normal to the surface, while the wing is in Mach number 2 flow. In the flow regime considered the predominant boundary layer instability type is the crossflow instability. The gas suction effect on the development of unstable modes in the boundary layer is investigated using the linear stability theory and direct numerical modeling. The numerical modeling of laminar (undisturbed) flow fields with regions of gas suction and disturbed flow fields is carried out by integrating Navier–Stokes equations. An analysis within the framework of the linear stability theory is performed using the \({{e}^{N}}\)-method. The suction region location is varied with conservation of the integral intensity. It is shown that the mode instability growth can be considerably suppressed at the expense of an optimal disposition of the suction region.

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来源期刊
Fluid Dynamics
Fluid Dynamics MECHANICS-PHYSICS, FLUIDS & PLASMAS
CiteScore
1.30
自引率
22.20%
发文量
61
审稿时长
6-12 weeks
期刊介绍: Fluid Dynamics is an international peer reviewed journal that publishes theoretical, computational, and experimental research on aeromechanics, hydrodynamics, plasma dynamics, underground hydrodynamics, and biomechanics of continuous media. Special attention is given to new trends developing at the leading edge of science, such as theory and application of multi-phase flows, chemically reactive flows, liquid and gas flows in electromagnetic fields, new hydrodynamical methods of increasing oil output, new approaches to the description of turbulent flows, etc.
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