Characterization and low-order representation of the vortex meandering motion in upswept afterbody wakes

IF 2.5 3区 工程技术 Q2 MECHANICS European Journal of Mechanics B-fluids Pub Date : 2024-04-24 DOI:10.1016/j.euromechflu.2024.04.010
Rajesh Ranjan , J.-Ch. Robinet , Datta Gaitonde
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Abstract

Vortex meandering is often characterized by seemingly stochastic motions of the vortex core. An elucidation of the underlying mechanisms of core movement aids not only in characterizing the meandering phenomenon but also forms a starting point to guide flow control techniques. This paper investigates the complex motion of longitudinal vortices behind an abstracted cargo aircraft fuselage. In contrast to wingtip vortices that arise in relative isolation, in this case the large aft region upsweep generates a meandering counter-rotating vortex pair that retains its coherence for long distances downstream. High-resolution spatio-temporal datasets obtained from large-eddy simulation of a cylindrical fuselage with longitudinally aligned axis and a sharp-edged base are used for this purpose. The circulation of each vortex in the pair initially increases immediately after formation and asymptotes to a near constant value downstream. Although the time-mean form of the vortices becomes nearly axisymmetric, the transient disorganized motions include time-local regions of opposite vorticity. The complicated meandering motion is decomposed using proper-orthogonal decomposition (POD) modes as primary building blocks. The first two modes constitute a mutually orthogonal |m|=1 elliptic pair, accounting for about 35% of the total energy; individually these modes account for the displacement of vortex cores along straight lines whose slopes coincide with their respective dipole axes. The wake outside of the immediate vicinity of the base displays low-rank behavior, in that the number of modes required to reproduce the flow to a given degree of accuracy diminishes rapidly. Beyond two fuselage (cylinder) diameters downstream, the two leading POD modes can reconstruct the dominant meandering motion and spatial structure in the LES data with less than 15% error using a suitable loss measure.

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上掠式余波中涡旋蜿蜒运动的特征和低阶表示法
涡流蜿蜒的特点通常是涡核看似随机的运动。阐明涡核运动的基本机制不仅有助于描述蜿蜒现象,而且也是指导流动控制技术的出发点。本文研究了抽象货机机身后纵向涡的复杂运动。与相对孤立产生的翼尖涡流不同,在这种情况下,机尾大面积上扫产生了一个蜿蜒的反旋转涡流对,该涡流对在下游很长一段距离内都保持着一致性。为此,我们使用了对具有纵向排列轴线和尖角底座的圆柱形机身进行大涡流模拟所获得的高分辨率时空数据集。这对旋涡中每个旋涡的环流在形成后立即增加,并在下游逐渐接近恒定值。虽然涡旋的时间平均形式变得接近轴对称,但瞬态无序运动包括时间局部的相反涡度区域。复杂的蜿蜒运动是以正交分解(POD)模式为主要构件进行分解的。前两种模式构成了一对相互正交的|m|=1椭圆,约占总能量的35%;这些模式分别代表了涡核沿直线的位移,其斜率与各自的偶极轴重合。底座附近以外的尾流显示出低阶梯行为,即在一定精确度上再现流动所需的模式数量迅速减少。在下游两个机身(气缸)直径之外,两个 POD 主导模式可以重建 LES 数据中的主要蜿蜒运动和空间结构,使用合适的损耗测量误差小于 15%。
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来源期刊
CiteScore
5.90
自引率
3.80%
发文量
127
审稿时长
58 days
期刊介绍: The European Journal of Mechanics - B/Fluids publishes papers in all fields of fluid mechanics. Although investigations in well-established areas are within the scope of the journal, recent developments and innovative ideas are particularly welcome. Theoretical, computational and experimental papers are equally welcome. Mathematical methods, be they deterministic or stochastic, analytical or numerical, will be accepted provided they serve to clarify some identifiable problems in fluid mechanics, and provided the significance of results is explained. Similarly, experimental papers must add physical insight in to the understanding of fluid mechanics.
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