The influence of roll angles on unsteady aerodynamics in a canard-configured missile

IF 3.4 Q1 ENGINEERING, MECHANICAL 国际机械系统动力学学报(英文) Pub Date : 2024-05-14 DOI:10.1002/msd2.12104
Kai Wei, Shaosong Chen, Dongdong Tang, Yihang Xu, Xujian Lyu, Qing Chen
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Abstract

During the initial stage of vertical launch, a missile may exhibit an uncertain roll angle (φ) and a high angle of attack (α). This study focuses on examining the impact of roll angle variations on the flow field and the unsteady aerodynamics of a canard-configured missile at α = 75°. Simulations were performed using the validated k-ω SST turbulence model. The analysis encompasses the temporal development of vortices, the oscillatory characteristics of the lateral force, and the fluctuation of kinetic energy distribution within the framework of proper orthogonal decomposition (POD). The results indicate that the flow field surrounding the canard-configured missile is characterized by inconsistent shedding cycles of Kármán-like and canard-separated vortices. A distinct transition zone is identified between these vortices, where vortex tearing and reconnection phenomena occur. With increasing roll angles from 0° to 45°, there is an observed shift in the dominant frequency of the lateral force from the higher frequency associated with Kármán-like vortex shedding to the lower frequency of canard vortex shedding. The shedding frequency of Kármán-like vortices corresponds to the harmonics of the canard vortex shedding frequency, indicative of a higher-order harmonic resonance. The frequency of the lateral force is observed to decrease with an increase in roll angle, except in configurations lacking distinct canard-separated vortices, which are characterized by a “+” shape. The POD analysis reveals that the majority of the fluctuation energy is concentrated in the oscillations and shedding of the canard-separated vortices, leading to pressure fluctuations that are primarily observed on the canard and the downstream region of the canard.

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滚转角对鸭嘴型导弹不稳定空气动力学的影响
在垂直发射的初始阶段,导弹可能表现出不确定的滚转角(φ)和较高的攻角(α)。本研究的重点是研究在 α = 75° 条件下,滚转角变化对流场和鸭式布局导弹的非稳定空气动力学的影响。模拟使用了经过验证的 k-ω SST 湍流模型。分析包括涡流的时间发展、侧向力的振荡特征以及适当正交分解(POD)框架内动能分布的波动。结果表明,卡门式涡旋和卡门分离式涡旋的脱落周期不一致,是卡门式导弹周围流场的特点。在这些涡旋之间发现了一个明显的过渡区,涡旋撕裂和重新连接现象就发生在这里。随着滚转角从 0°增加到 45°,观察到横向力的主导频率从与卡曼类涡旋脱落相关的较高频率转移到与鸭翼涡旋脱落相关的较低频率。卡曼类涡旋的脱落频率与鸭翼涡旋脱落频率的谐波相对应,表明存在高阶谐波共振。侧向力的频率随着滚转角的增大而减小,但缺乏明显的鸭翼分离涡的配置除外,这种配置的特点是呈 "+"形。POD 分析表明,大部分波动能量集中在鸭翼分离涡的振荡和脱落上,从而导致压力波动,这种波动主要出现在鸭翼和鸭翼下游区域。
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