Direct Measurement of Bottom Shear Stress under Water Waves

4区地球科学 Q3 Earth and Planetary Sciences

Journal of Coastal Research Pub Date : 2024-03-29 DOI:10.2112/jcr-si50-205.1

Z. You, B. Yin

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引用次数: 11

Abstract

Wave-induced bottom shear stress is one of the most important parameters in modelling of wave hydrodynamics and coastal sediment transport. A new type of shear plate has been successfully developed to measure instantaneous wave bottom shear stress in a laboratory wave flume. The shear plate measures instantaneous horizontal force by applying the Wheatstone half bridge circuit to detect a tiny horizontal movement of the shear plate. There are about 280 individual test runs carried out over one smooth bed and two roughened beds, respectively. In each test run, instantaneous bottom shear stress was measured at a sampling rate of 10 Hz for about 10 minutes. The measured total horizontal force, which consists of wave-induced bottom shear stress and hydrodynamic pressure, is found linearly proportional to wave height in both laminar and turbulent flows. The wave friction factors measured on the smooth bed are shown to agree excellently with the theoretical values derived in laminar boundary layer flow, but those on the rough beds are affected by the bed roughness length estimated. An empirical formula is also proposed to compute the wave bottom shear stress.

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直接测量水波作用下的底部剪应力

波浪引起的底部剪应力是波浪流体力学和沿岸沉积物输运模拟中最重要的参数之一。已成功开发出一种新型剪力板，用于测量实验室波浪水槽中的瞬时波浪底部剪应力。剪力板通过惠斯通半桥电路检测剪力板的微小水平运动来测量瞬时水平力。在一个光滑床层和两个粗糙床层上分别进行了约 280 次单独测试。在每次试验中，以 10 Hz 的采样率测量瞬时底部剪应力，持续约 10 分钟。在层流和紊流中，测得的总水平力（由波浪引起的底部剪应力和水动力压力组成）与波浪高度成线性比例。在光滑河床上测量到的波浪摩擦因数与层流边界层流动中得出的理论值非常吻合，但在粗糙河床上测量到的波浪摩擦因数受到河床粗糙度长度估计值的影响。此外，还提出了计算波底剪应力的经验公式。

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

Journal of Coastal Research 地学-地球科学综合

自引率

0.00%

发文量

审稿时长

3-8 weeks

期刊介绍： The Journal of Coastal Research (JCR) is one of the leading international journals for coastal studies and processes, and is published bi-monthly by the Coastal Education & Research Foundation [CERF]. By covering the entire field of coastal research, the JCR encompasses all subjects relevant to natural and engineered environments (freshwater, brackish, or marine) and the protection/management of their resources in the vicinity of coastlines of the world. Even though the journal broadly focuses on immediate shoreline zones, the JCR also embraces those coastal environments that either reach some indefinite distance inland or that extend seaward beyond the outer margins of the sublittoral (neritic) zone. The JCR disseminates accurate information to both the public and research specialists around the world on all aspects of coastal issues in an effort to maintain or improve the quality of our planet''s shoreline resources.