Numerical Study on the Unusual Vibration Load Characteristics and Mechanisms of the Front Landing Gear Compartment

IF 2.1 3区 工程技术 Q2 ENGINEERING, AEROSPACE Aerospace Pub Date : 2023-11-28 DOI:10.3390/aerospace10120999
Huixue Dang, Jiang Xu, Wei Wang, Xiaochen Wang, Bin Li, Ruizhi Cao, Liuhong Kang, Zhichun Yang
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Abstract

Civilian aircraft can experience noticeable vibrations in the cockpit and cabin due to mechanical faults during flight. To address this issue, a hybrid approach was utilized to investigate fluid-induced vibration load characteristics in the front landing gear compartment under different hatch opening angles. The results reveal that the root mean square (RMS) of cumulative pressure loads on both small and large hatches under different opening angles is largest at a 15°. For all the simulated cases (0°, 5°, 10°, 15°, 20°), the power spectral density (PSD) results of the chosen monitoring points on the inner wall of the large hatch exhibit broadband frequency characteristics, and the peak PSD values for the chosen monitoring points on the outer wall of the small hatch exhibit a significant concentration of energy at approximately 75 Hz. The peak PSD values for the selected monitoring points on the inner wall of the small hatch demonstrate a more uniform distribution of energy. Utilizing the iso-surface of Q-criterion, spatial streamlines, and streamlines at different cross-sections to analyze flow characteristics, the study investigates the fluctuating load mechanisms of the compartments. The results indicate that unsteady loads stem from the blunt edges of the hatches, which induce unsteady flow and spanwise flow. Geometric gaps between different locations cause flow separation, and the flows inside the compartment exhibit characteristics similar to those of a clean cavity. Furthermore, the mutual interference can be described using circulating flow and spanwise flow, resulting in flow unsteadiness. The flow separation zones enlarge and vortex intensity increases with the increase of the hatch opening angle from 0° to 15°; then, their values decrease as the hatch opening angle increases from 15° to 20°. These variations explain the maximum RMS of cumulative pressure loads at 15°.
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前起落架舱异常振动载荷特性和机理的数值研究
民用飞机在飞行过程中会因机械故障而在驾驶舱和座舱内产生明显的振动。针对这一问题,我们采用混合方法研究了不同舱门开启角度下前起落架舱内流体诱发的振动载荷特性。结果表明,在不同开启角度下,小舱门和大舱门的累积压力载荷均方根(RMS)在 15° 时最大。在所有模拟情况下(0°、5°、10°、15°、20°),大舱口内壁上所选监测点的功率谱密度 (PSD) 结果显示出宽带频率特性,而小舱口外壁上所选监测点的 PSD 峰值在约 75 Hz 处显示出明显的能量集中。小舱室内壁上所选监测点的 PSD 峰值显示出更均匀的能量分布。研究利用 Q 标准等值面、空间流线和不同截面的流线来分析流动特性,研究了舱室的波动载荷机制。结果表明,不稳定载荷来自舱口的钝边,它引起了不稳定流和跨向流。不同位置之间的几何间隙导致流动分离,舱室内部的流动表现出与清洁空腔类似的特征。此外,相互干扰可以用循环流动和跨向流动来描述,从而导致流动不稳定。随着舱门开启角度从 0°到 15°的增加,流动分离区扩大,涡流强度增加;然后,随着舱门开启角度从 15°到 20°的增加,其值减小。这些变化解释了 15° 时累积压力载荷均方根值最大的原因。
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来源期刊
Aerospace
Aerospace ENGINEERING, AEROSPACE-
CiteScore
3.40
自引率
23.10%
发文量
661
审稿时长
6 weeks
期刊介绍: Aerospace is a multidisciplinary science inviting submissions on, but not limited to, the following subject areas: aerodynamics computational fluid dynamics fluid-structure interaction flight mechanics plasmas research instrumentation test facilities environment material science structural analysis thermophysics and heat transfer thermal-structure interaction aeroacoustics optics electromagnetism and radar propulsion power generation and conversion fuels and propellants combustion multidisciplinary design optimization software engineering data analysis signal and image processing artificial intelligence aerospace vehicles'' operation, control and maintenance risk and reliability human factors human-automation interaction airline operations and management air traffic management airport design meteorology space exploration multi-physics interaction.
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