模拟分层气流中的恒定应力层特征:对风化输送的影响

IF 3.1 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Lukas F. Meldau, Bailiang Li, Cheryl McKenna Neuman, James R. Cooper
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引用次数: 0

摘要

长期以来,大气热稳定性条件的变化及其对剪切流的影响一直是大气科学研究人员感兴趣的课题。新仪器技术的发展为研究风洞大气边界层的高空间和时间分辨率流动提供了机会。在本研究中,我们使用特伦特环境风洞实验室的激光多普勒风速仪来研究热分层对恒应力层的影响。通过对梯度理查森数、表观冯卡尔曼参数、剪切速度和流向速度剖面斜率所代表的热分层进行分析,发现它们之间存在很强的线性关系。热稳定性与表观粗糙度长度之间也呈指数关系。流向和垂直速度剖面、湍流强度以及无量纲雷诺应力受梯度理查森数的影响。这些发现对建立非中性条件下沉积物夹带和风力输运的精确模型具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Constant stress layer characteristics in simulated stratified air flows: Implications for aeolian transport

Varying thermal atmospheric stability conditions and their effects on shearing flows has long been a subject of interest for researchers working in atmospheric science. The development of new instrument technologies now offers an opportunity to study flows with high spatial and temporal resolutions in wind tunnel atmospheric boundary layers. In the presented study, we use a laser Doppler anemometer within the Trent Environmental Wind Tunnel Laboratory to investigate the influence of thermal stratification on the constant stress layer. Analyses of the thermal stratification represented by the gradient Richardson number and the apparent von Kármán parameter, shear velocity, and the slope of the streamwise velocity profiles reveal strong linear relationships. An exponential relationship between thermal stability and the apparent roughness length is also revealed. Profiles of the streamwise and vertical velocity and turbulence intensity, as well as the dimensionless Reynolds stress, are influenced by the gradient Richardson number. These findings have implications for producing accurate models of sediment entrainment and transport by wind in non-neutral conditions.

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来源期刊
Aeolian Research
Aeolian Research GEOGRAPHY, PHYSICAL-
CiteScore
7.10
自引率
6.10%
发文量
43
审稿时长
>12 weeks
期刊介绍: The scope of Aeolian Research includes the following topics: • Fundamental Aeolian processes, including sand and dust entrainment, transport and deposition of sediment • Modeling and field studies of Aeolian processes • Instrumentation/measurement in the field and lab • Practical applications including environmental impacts and erosion control • Aeolian landforms, geomorphology and paleoenvironments • Dust-atmosphere/cloud interactions.
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