基于实测的波浪破碎统计特征及其与风波能量耗散的关系

IF 0.7 Q4 OCEANOGRAPHY Physical Oceanography Pub Date : 2020-09-01 DOI:10.22449/0233-7584-2020-5-514-531
A. Korinenko, V. Malinovsky, V. Kudryavtsev, V. Dulov
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引用次数: 4

摘要

目的。这项工作旨在研究自然条件下风浪破碎的几何相似性,估计将波浪破碎条件下的波浪能量耗散与破碎波锋面长度分布联系起来的邓肯常数Λ(r)。方法与结果。在靠近Katsiveli村的Golubaya湾的固定海洋平台上进行了破波特征的实地测量。根据海面的视频记录,确定了破浪活动相位的几何尺寸、速度和运动方向;同时,记录了气象资料,测量了地表波的特征。共获得55个海面录像(时长40-50分钟)。这些测量是在广泛的气象条件和波浪参数(风速从9.2到21.4米/秒不等)下进行的。结论。在不同的风浪条件下,得到的最大破碎长度与破碎波长度之比的概率密度是相似的。这个比率的平均值是0.1。在表面单元的运动速度区间中构造了波浪破碎总长度的分布。结果表明,这些分布对风速和破波运动速度的依赖性的实验估计与O.M. Phillips(1985)的理论预测是一致的;在那里,没有发现波浪年龄的依赖关系。得到了波长分布与能量耗散关系的定量特征。估算了邓肯常数;结果表明,它等于1.8·10-3,与波和大气参数无关。
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Statistical Characteristics of Wave Breakings and their Relation with the Wind Waves’ Energy Dissipation Based on the Field Measurements
Purpose. The work is aimed at studying geometric similarity of wind wave breakings in natural conditions, estimating the Duncan constant which connects the wave energy dissipation conditioned by wave breakings, with distribution of the lengths of a breaking wave fronts Λ(с). Methods and Results. The field measurements of the wave breaking characteristics were carried out at the stationary oceanographic platform located in the Golubaya Bay near the Katsiveli village. Geometric dimensions of the wave breakings’ active phase, velocities and directions of their movement were determined from the video records of the sea surface; simultaneously, the meteorological information was recorded and the surface waves’ characteristics were measured. Altogether 55 video recordings (duration 40–50 mins) of the sea surface were obtained. The measurements were carried out in a wide range of meteorological conditions and wave parameters (wind speed varied from 9.2 to 21.4 m/s). Conclusions. It is found that the probability densities of the ratio between the maximum length of a breaking and the length of a breaking wave, obtained in various wind and wave conditions are similar. The average value of this ratio is 0.1. Distributions of the wave breakings’ total length are constructed in the movement velocity intervals on a surface unit. It is shown that the experimental estimates of dependence of these distributions upon the wind speed and the wave breaking movement velocity are consistent with the theoretical predictions of O.M. Phillips (1985); at that no dependence on the waves’ age was found. Quantitative characteristics of the relation between the wave lengths’ distribution and the energy dissipation are obtained. The Duncan constant was estimated; it turned out to be equal to 1.8·10-3 and independent upon the waves’ and atmosphere parameters.
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来源期刊
Physical Oceanography
Physical Oceanography OCEANOGRAPHY-
CiteScore
1.80
自引率
25.00%
发文量
8
审稿时长
24 weeks
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