Turbulence from an Observer Perspective

IF 25.4 1区 工程技术 Q1 MECHANICS
Tamer A. Zaki
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引用次数: 0

Abstract

Turbulence is often studied by tracking its spatiotemporal evolution and analyzing the dynamics of its different scales. The dual to this perspective is that of an observer who starts from measurements, or observations, of turbulence and attempts to identify their back-in-time origin, which is the foundation of data assimilation. This back-in-time search must contend with the action of chaos, which obfuscates the interpretation of the observations. When the available measurements satisfy a critical resolution threshold, the influence of chaos can be entirely mitigated and turbulence can be synchronized to the exact state–space trajectory that generated the observations. The critical threshold offers a new interpretation of the Taylor microscale, one that underscores its causal influence. Below the critical threshold, the origin of measurements becomes less definitive in regions where the flow is inconsequential to the observations. In contrast, flow events that influence the measurements, or are within their domain of dependence, are accurately captured. The implications for our understanding of wall turbulence are explored, starting with the highest density of measurements that entirely tame chaos and proceeding all the way to an isolated measurement of wall stress. The article concludes with a discussion of future opportunities and a call to action.
从观察者的角度看湍流
对湍流的研究通常是通过跟踪其时空演变和分析其不同尺度的动态来进行的。与这一视角相对应的是观察者的视角,观察者从湍流的测量或观测结果出发,试图确定它们的时间起源,这是数据同化的基础。这种回溯时间的搜索必须与混沌作用相抗衡,混沌作用会混淆对观测数据的解释。当可用的测量数据满足临界分辨率阈值时,混沌的影响就会完全减弱,湍流就能与产生观测数据的精确状态空间轨迹同步。临界阈值为泰勒微尺度提供了一种新的解释,强调了其因果影响。在临界阈值以下,在流动对观测结果无关紧要的区域,测量结果的起源变得不那么明确。与此相反,影响测量结果或在测量结果相关区域内的流动事件则会被准确捕捉到。文章从完全驯服混沌的最高密度测量开始,一直到对壁面应力的孤立测量,探讨了对我们理解壁面湍流的影响。文章最后讨论了未来的机遇并呼吁采取行动。
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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来源期刊
CiteScore
54.00
自引率
0.40%
发文量
43
期刊介绍: The Annual Review of Fluid Mechanics is a longstanding publication dating back to 1969 that explores noteworthy advancements in the field of fluid mechanics. Its comprehensive coverage includes various topics such as the historical and foundational aspects of fluid mechanics, non-newtonian fluids and rheology, both incompressible and compressible fluids, plasma flow, flow stability, multi-phase flows, heat and species transport, fluid flow control, combustion, turbulence, shock waves, and explosions. Recently, an important development has occurred for this journal. It has transitioned from a gated access model to an open access platform through Annual Reviews' innovative Subscribe to Open program. Consequently, all articles published in the current volume are now freely accessible to the public under a Creative Commons Attribution (CC BY) license. This new approach not only ensures broader dissemination of research in fluid mechanics but also fosters a more inclusive and collaborative scientific community.
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