Flow Evolution and Vertical Accelerations in Wave-Swash Interactions

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY
Claudio Meza-Valle, Nimish Pujara
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Abstract

We report on a laboratory study of wave-swash interactions, which occur in the very nearshore environment of a beach when the shallow swash flow of a breaking wave interacts with a subsequent wave. Wave-swash interactions have been observed in the field, hypothesized to be important for nearshore transport processes, and categorized into different qualitative types, but quantitative descriptions of their dynamics have remained elusive. Using consecutive solitary waves with different wave heights and separations, we generate a wide variety of wave-swash interactions with large flow velocities and vertical accelerations. We find that wave-swash interactions can be quantitatively characterized in terms of two dimensionless parameters. The first of them corresponds to the wave height ratio for consecutive waves, and the second is a dimensionless measure of the time separation between consecutive wave crests. Using measurements of bed pressure and free-surface displacement, we estimate the total vertical accelerations and focus on the peak upward-directed acceleration. We find that wave-swash interactions can generate vertical accelerations that can easily exceed gravity, despite occurring in very shallow water depths. The large vertical accelerations are upward-directed and are quickly followed by onshore-directed horizontal velocities. Together, our findings suggest that wave-swash interactions are capable of inducing large material suspension events of sediment or solutes in sediment pores, and transporting them onshore. While the data are from a single location making it difficult to generalize the findings across the swash zone, the results clearly demonstrate the importance of large vertical accelerations in wave-swash interactions.

Abstract Image

波浪-冲浪相互作用中的水流演变和垂直加速度
我们报告了一项关于波浪-冲刷相互作用的实验室研究,这种相互作用发生在海滩的近岸环境中,当破浪的浅冲刷流与随后的波浪相互作用时就会发生。波浪-冲刷相互作用已被实地观测到,并被推测为对近岸传输过程非常重要,还被划分为不同的定性类型,但对其动态的定量描述仍然难以捉摸。利用不同波高和波距的连续孤波,我们生成了各种具有较大流速和垂直加速度的波浪-冲刷相互作用。我们发现,波-冲相互作用可以用两个无量纲参数来定量描述。第一个参数是连续波浪的波高比,第二个参数是连续波浪波峰之间时间间隔的无量纲测量值。通过测量床面压力和自由表面位移,我们估算了总的垂直加速度,并重点研究了向上的峰值加速度。我们发现,尽管发生在水深很浅的地方,波浪-冲刷相互作用产生的垂直加速度很容易超过重力。巨大的垂直加速度是向上定向的,并很快随之而来的是岸上定向的水平速度。总之,我们的研究结果表明,波浪-冲刷相互作用能够在沉积物孔隙中诱发沉积物或溶质的大型物质悬浮事件,并将它们输送到岸上。虽然这些数据只来自一个地点,因此很难将研究结果推广到整个冲刷区,但这些结果清楚地表明了大的垂直加速度在波浪-冲刷相互作用中的重要性。
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来源期刊
Journal of Geophysical Research-Oceans
Journal of Geophysical Research-Oceans Earth and Planetary Sciences-Oceanography
CiteScore
7.00
自引率
13.90%
发文量
429
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