Case-Study Modelling Analysis of Hydrodynamics in the Nearshore of the Baltic Sea Forced by Extreme Along-shore Wind in the Case of a Cross-shore Obstacle

Q4 Environmental Science

Archives of Hydroengineering and Environmental Mechanics Pub Date : 2018-12-01 DOI:10.1515/heem-2018-0011

A. Sokolov, B. Chubarenko

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引用次数: 1

Abstract

Abstract In the current study we use a three-dimensional model with hydrodynamic and spectral wave modules operating in a coupled mode to simulate the response of currents and wind wave fields to winds of 20–25 m/sec offshore of the protective structure of the Saint Petersburg Flood Prevention Facility Complex. The model was calibrated against field data, which allowed us to obtain a tool describing storm situations in the eastern part of the Gulf of Finland with a satisfactory accuracy. The numerical modeling showed that the protective dam did not have a noticeable effect on the levels of stormsurge, significantwave height, or current speed in areas seaward of the dam. The increase in erosion processes on the southern shore of the easternmost part of the Gulf of Finland in recent past has most probably been related to other factors. We found that if a west or south-west wind of at least 25 m/s blows over the Baltic Sea for at least 16 hours, the level of storm surges seaward of the dam may reach 3 or more meters. An artificial strengthening of the coastline and the creation of shore protection structures are recommended.

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跨岸障碍物情况下波罗的海近海极端沿岸风强迫的流体动力学案例研究建模分析

摘要:本研究采用水动力和谱波模块耦合运行的三维模型，模拟了圣彼得堡防洪设施综合体防护结构在20-25 m/sec风速下的海流和风波场响应。该模型是根据现场数据进行校准的，这使我们能够获得一种描述芬兰湾东部风暴情况的工具，准确度令人满意。数值模拟结果表明，防护坝对大坝向海区域的风暴潮水平、显著波高和水流速度没有显著影响。近年来芬兰湾最东端南岸侵蚀过程的增加很可能与其他因素有关。我们发现，如果在波罗的海上吹至少25米/秒的西风或西南风至少16小时，大坝向海的风暴潮水位可能达到3米或更高。建议人工加固海岸线和建立海岸保护结构。

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来源期刊

Archives of Hydroengineering and Environmental Mechanics Environmental Science-Water Science and Technology

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： Archives of Hydro-Engineering and Environmental Mechanics cover the broad area of disciplines related to hydro-engineering, including: hydrodynamics and hydraulics of inlands and sea waters, hydrology, hydroelasticity, ground-water hydraulics, water contamination, coastal engineering, geotechnical engineering, geomechanics, structural mechanics, etc. The main objective of Archives of Hydro-Engineering and Environmental Mechanics is to provide an up-to-date reference to the engineers and scientists engaged in the applications of mechanics to the analysis of various phenomena appearing in the natural environment.