Flow Topology of the Bi-Stable Wake States for the DrivAer Fastback Model

IF 2 3区 工程技术 Q3 MECHANICS
Matthew Aultman, Lian Duan
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Abstract

For this work, conditional averaging and Proper Orthogonal Decomposition (POD) were used to analyze the salient three-dimensional structures in the wake of a DrivAer fastback model with smooth underbody. Conditional averaging revealed that the bi-stable structure of the wake consists of a ring-like structure with three vortex legs, which includes a vortex pair on the side associated with the bi-stability and one on the opposite side associated with the wheel vortex. POD revealed the entrainment of low-momentum fluid from the wheel wake into the vortex pair leads to an induced spanwise crossflow which drives a feedback loop for the bi-stability. The resultant bi-stable structure was dependent on the state of the wheels. With stationary wheels, the feedback mechanism is enhanced, leading to higher spanwise crossflow that breaks the ring-like vortex. A different structure was observed when the wheels rotate, wherein the ring-like structure is unbroken and pierced by the vortex pair. The feedback mechanism and resultant vortex structure are similar to those found in simplified square-back models. Given the similarity in bi-stability between realistic and simplified vehicles, the suppression of the bi-stability in realistic vehicles could initially be based on the same mechanism as that for simplified square-back models.

Abstract Image

DrivAer Fastback 模型双稳定唤醒状态的流动拓扑图
本研究采用条件平均法和适当正交分解法(POD)分析了具有光滑底部的 DrivAer Fastback 模型尾流中的显著三维结构。条件平均法显示,尾流的双稳态结构由带有三个涡腿的环状结构组成,其中包括与双稳态相关的一侧的一对涡,以及与车轮涡相关的另一侧的一对涡。POD 显示,车轮尾流中的低动量流体夹带进入涡旋对,导致诱导跨向横流,从而推动双稳态的反馈回路。由此产生的双稳态结构取决于车轮的状态。当车轮静止时,反馈机制得到加强,导致更高的跨向横流,从而打破环状涡流。当车轮旋转时,观察到不同的结构,其中环状结构未被打破,并被涡对穿透。反馈机制和由此产生的涡旋结构与简化的方背模型相似。鉴于现实车辆与简化车辆在双稳态方面的相似性,现实车辆的双稳态抑制最初可能基于与简化方背模型相同的机制。
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来源期刊
Flow, Turbulence and Combustion
Flow, Turbulence and Combustion 工程技术-力学
CiteScore
5.70
自引率
8.30%
发文量
72
审稿时长
2 months
期刊介绍: Flow, Turbulence and Combustion provides a global forum for the publication of original and innovative research results that contribute to the solution of fundamental and applied problems encountered in single-phase, multi-phase and reacting flows, in both idealized and real systems. The scope of coverage encompasses topics in fluid dynamics, scalar transport, multi-physics interactions and flow control. From time to time the journal publishes Special or Theme Issues featuring invited articles. Contributions may report research that falls within the broad spectrum of analytical, computational and experimental methods. This includes research conducted in academia, industry and a variety of environmental and geophysical sectors. Turbulence, transition and associated phenomena are expected to play a significant role in the majority of studies reported, although non-turbulent flows, typical of those in micro-devices, would be regarded as falling within the scope covered. The emphasis is on originality, timeliness, quality and thematic fit, as exemplified by the title of the journal and the qualifications described above. Relevance to real-world problems and industrial applications are regarded as strengths.
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