Large-scale structures of wall-bounded turbulence in single- and two-phase flows: advancing understanding of the atmospheric surface layer during sandstorms

IF 2.8 Q2 MECHANICS

Flow (Cambridge, England) Pub Date : 2021-07-28 DOI:10.1017/flo.2021.6

Hongyou Liu, Xiaojing Zheng

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引用次数: 11

Abstract

Graphical Abstract In recent years, observations of the atmospheric surface layer have greatly promoted research on high-Reynolds-number wall-bounded turbulence, especially observations of wind-blown sand flows/sandstorms, which are typical sand-laden two-phase flows; these successes have advanced the science of gas–solid two-phase wall-bounded turbulence to very-high-Reynolds-number conditions. Based on a review of existing atmospheric surface layer observations and the development process, this paper summarizes the important promoting effect played by these observations in understanding the very-large-scale structure characteristics, turbulent kinetic energy fraction and amplitude modulation effect, and in reconstructing the spatial electric field under high-Reynolds-number wall turbulence. This review focuses on the main successes achieved by the observation of sand-laden two-phase flows and the three-dimensional turbulent flow field, especially in the streamwise direction. Finally, some suggestions and outlooks for further research on particle-laden two-phase wall-bounded turbulence under high-Reynolds-number conditions are presented.

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单相和两相流中壁边界湍流的大尺度结构：加深对沙尘暴期间大气表层的理解

近年来，大气表层的观测极大地促进了高雷诺数壁面湍流的研究，特别是典型的含沙两相流——风沙流/沙尘暴的观测;这些成功将气固两相壁面湍流科学推进到非常高的雷诺数条件。本文在回顾已有的大气表层观测资料及其发展历程的基础上，总结了这些观测资料对认识大尺度结构特征、湍流动能分数和调幅效应以及重建高雷诺数壁面湍流空间电场的重要促进作用。本文综述了在含沙两相流和三维湍流流场观测方面取得的主要成果，特别是在顺流方向上。最后，对高雷诺数条件下载粒子两相壁面湍流的进一步研究提出了建议和展望。

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

Flow (Cambridge, England)

CiteScore

2.40

自引率

0.00%

发文量