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Performance of a dynamic cobble berm revetment for coastal protection, under increasing water level.

护道 护岸 卵石 花花公子 叠瓦 环境科学 海岸侵蚀 腐蚀 地质学 波高 抛石 水文学(农业) 土工格栅 岩土工程 海洋学 地貌学 工程类 栖息地 生态学 古生物学 构造学 结构工程 钢筋 生物
作者
Paul Bayle,Chris Blenkinsopp,Daniel Conley,Gerd Masselink,Tomas Beuzen,Rafaël Almar
出处
期刊:Coastal Engineering [Elsevier BV]
卷期号:159: 103712-103712 被引量:20
标识
DOI:10.1016/j.coastaleng.2020.103712
摘要

In a changing climate, sea level rise and projected regional–scale changes in storminess may increase the vulnerability of sandy coastlines to coastal erosion and flooding. As a result, there is increased interest in the development of adaptable, sustainable and effective coastal protection measures to protect these highly variable sandy coastlines. One such example is a dynamic cobble berm revetment; a “soft–engineering” solution (i.e., not fixed) consisting of a cobble berm constructed around the high tide wave runup limit, that has the potential to stabilise the upper beach, provide overtopping protection to the hinterland and translate with water level rise. However, there have been limited applications of dynamic cobble berm revetments to date, and there is a lack of understanding about the efficacy of this coastal protection to current and changing waves and water levels. This study details a prototype–scale experiment conducted to test the behaviour and performance of a dynamic cobble berm revetment as a form of coastal protection against erosive waves and water level increase. Results from the experiment showed that the revetment was “dynamically stable” under wave action as a consistent global shape was retained even though individual cobbles were mobilised under every swash event. Although the front slope and the crest responded to the incident wave condition, the net rate of change was always an order of magnitude lower than the gross rate of change. Tracking of individual cobbles using Radio Frequency Identification (RFID) technology showed that stability of the revetment was likely maintained by rollover transport of cobbles onto the crest, as the revetment moved upward and landward under water level rise. The presence of the revetment reduced the vertical and horizontal runup as well as the retreat of the upper beach. The experimental results presented suggest that a dynamic cobble berm revetment could be a cheap, efficient and low environmental impact engineering solution for protecting sandy coastlines in a changing climate. Some preliminary design guidelines for coastal engineers are also drawn from this experiment.

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