Coupled numerical simulation of the external and engine inlet flows for the F-18 at large incidence

Scott M Murman , Yehia M Rizk , Lewis B Schiff
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引用次数: 15

Abstract

This paper presents a numerical simulation of the external and engine inlet flows for the F-18 aircraft at typical high-angle-of-attack flight conditions. Two engine inlet mass flow rates, corresponding to flight idle and maximum power, were computed. This was accomplished using a structured, overset grid technique to couple the external and internal grid systems. Reynolds-averaged Navier–Stokes solutions were obtained using an implicit, finite-differencing scheme. Results show a strong coupling of the external and engine inlet flows, especially at the maximum power setting. Increasing the mass flow rate through the inlet caused the primary vortex breakdown location to move downstream. This trend is also observed in flight tests performed on the F-18. A reversed flow region upstream of the inlet duct is visible in the faired-inlet and flight-idle computations. This flow reversal is not present in the maximum power setting computation. These large-scale changes in flow structure highlight the importance of simulating inlet conditions in high-angle-of-attack aircraft computations.

F-18大迎角时外部和发动机进气流的耦合数值模拟
本文对F-18飞机在典型大迎角飞行条件下的外部和发动机进气道流动进行了数值模拟。计算了与飞行怠速和最大功率相对应的两个发动机进气质量流量。这是使用一种结构化的、过度设置的网格技术来耦合外部和内部网格系统来实现的。雷诺平均Navier-Stokes解是使用隐式有限差分格式获得的。结果表明,外部流量和发动机进气流量具有很强的耦合性,尤其是在最大功率设置下。增加通过入口的质量流速导致初级涡流破裂位置向下游移动。在F-18的飞行试验中也观察到了这种趋势。在公平的进气道和飞行怠速计算中,可以看到进气道上游的反向流动区域。最大功率设置计算中不存在这种流量反向。流动结构的这些大规模变化突出了在高攻角飞机计算中模拟进气道条件的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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