On the three-dimensional structure of instabilities beneath shallow-shoaling internal waves

IF 3.6 2区 工程技术 Q1 MECHANICS Journal of Fluid Mechanics Pub Date : 2024-09-18 DOI:10.1017/jfm.2024.703
Nicolas Castro-Folker, Marek Stastna
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Abstract

The stimulation of instability and transport in the bottom boundary layer by internal solitary waves has been documented for over twenty years. However, the challenge of shallow slopes and a disparity of scales between the large-scale wave and the small-scale boundary layer has proven challenging for simulations. We present laboratory scale simulations that resolve the three-dimensionalisation in the boundary layer during the entire shoaling process. We find that the late stage, in which the incoming wave fissions into boluses, provides the most consistent source of three-dimensionalisation. In the early stage of shoaling, three-dimensionalisation occurs not so much due to separation bubble instability, but due to the interaction of vortices shed from the separation bubble with the overlying pycnocline. This interaction overturns the pycnocline, and creates bursts in kinetic energy and viscous dissipation, suggesting that the shed vortices induce turbulent motion and sediment resuspension in the water column above and behind the separation bubble.
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浅层翔泳内波下不稳定性的三维结构
内孤波对海底边界层不稳定性和传输的激励作用已有二十多年的记录。然而,浅坡以及大尺度波和小尺度边界层之间的尺度差异给模拟带来了挑战。我们展示了实验室尺度的模拟结果,解决了整个浅滩过程中边界层的三维化问题。我们发现,在后期阶段,入射波裂变成波块,提供了最一致的三维化来源。在浅滩形成的早期阶段,三维化的发生与其说是由于分离气泡的不稳定性,不如说是由于分离气泡流出的涡流与上覆的pycnocline的相互作用。这种相互作用推翻了pycnocline,并产生了动能和粘性耗散的爆发,表明分离气泡上方和后方的水体中,脱落的涡流引起了湍流运动和沉积物的再悬浮。
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来源期刊
CiteScore
6.50
自引率
27.00%
发文量
945
审稿时长
5.1 months
期刊介绍: Journal of Fluid Mechanics is the leading international journal in the field and is essential reading for all those concerned with developments in fluid mechanics. It publishes authoritative articles covering theoretical, computational and experimental investigations of all aspects of the mechanics of fluids. Each issue contains papers on both the fundamental aspects of fluid mechanics, and their applications to other fields such as aeronautics, astrophysics, biology, chemical and mechanical engineering, hydraulics, meteorology, oceanography, geology, acoustics and combustion.
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