МОДЕЛИРОВАНИЕ ШТОРМОВЫХ ИЗМЕНЕНИЙ РЕЛЬЕФА БЕРЕГОВОЙ ЗОНЫ И ГРАНУЛОМЕТРИЧЕСКОГО СОСТАВА НАНОСОВ В РАЙОНЕ ПЕРЕСЫПИ ОЗ. БОГАЙЛЫ (ЗАПАДНЫЙ КРЫМ)

IF 0.7 Q4 OCEANOGRAPHY Physical Oceanography Pub Date : 2019-06-11 DOI:10.22449/0233-7584-2019-2-185-196
К.И. Гуров, В Ф Удовик, В. В. Фомин
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引用次数: 1

Abstract

Introduction . A series of numerical experiments was carried out to study the mechanism of storm deformations of the coastal zone relief and the redistribution of different sediment fractions after the parameters of the wind waves directed almost normally to the coastline, are changed. Data and methods . The lithodynamic processes taking place at the Western Crimea coastal zone in the region of the Lake Bogaily bay-bar were investigated using the XBeach mathematical model. The in-situ data on the bottom relief and the sediments granulometric composition obtained during monitoring observations in the Western Crimea coastal zone performed by the Marine Hydrophysical Institute of RAS was used as the model input parameters. The granulometric composition was preset as a mixture of three components distributed along the profile of the underwater coastal slope; at that the ratios of volume concentrations were different. Results . It is shown that influence of the storm waves results in intensive beach erosion, strong alteration of the profile of the underwater coastal slope upper part and formation of an accumulative body. Main changes of the initial profile and redistribution of the sediment fractions are observed during the first 3–6 hours and depend on the wave period. The rate of the water edge retreat and the values of the coastal zone relief deformation were quantitatively assessed for various time periods of the wave action. Position of the marine boundary of the site within which significant motion of sediments and their accumulation during a storm took place was calculated. Discussion and conclusion . Possibility of the bay-bar crest erosion is analyzed for the wind wave’ different periods. It is shown that the volume concentrations of different components of the mixture change mainly after the fine fractions are rapidly removed to the seaward part of the bottom profile and the coarser fractions are redistributed in the upper part of the underwater coastal slope. The obtained results provide a possibility of indirect determining the conditions for blocking the alongshore sediments transport in case of building a hydraulic structure.
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模拟海岸地形的风暴变化,以及oz中转地区泥沙的颗粒组成。富人(西克里米亚)
介绍进行了一系列数值实验,研究了在几乎垂直于海岸线的风浪参数发生变化后,海岸带起伏的风暴变形机制以及不同沉积物组分的重新分布。数据和方法。使用XBeach数学模型研究了博盖里湖湾坝区克里米亚西部海岸带发生的岩石动力学过程。RAS海洋水文研究所在克里米亚西部海岸带进行监测观测期间获得的底部起伏和沉积物粒度组成的现场数据被用作模型输入参数。粒度组成预设为沿水下海岸斜坡剖面分布的三种成分的混合物;此时体积浓度的比值不同。后果研究表明,风暴波的影响导致海滩侵蚀强烈,水下海岸斜坡上部剖面发生强烈变化,形成堆积体。在最初的3-6小时内观察到初始剖面的主要变化和沉积物组分的重新分布,这取决于波浪周期。定量评估了波浪作用不同时间段的水边后退速率和海岸带起伏变形值。计算了风暴期间沉积物及其堆积发生重大运动的地点的海洋边界位置。讨论和结论。分析了不同时期风浪对海湾坝顶侵蚀的可能性。研究表明,混合物中不同组分的体积浓度变化主要是在细组分迅速转移到底部剖面的向海部分,而粗组分在水下海岸斜坡的上部重新分布之后。所获得的结果为间接确定在建造水工建筑物的情况下阻断沿岸沉积物输送的条件提供了可能性。
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
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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