理想红树林对海岸建筑物波浪力减少的大尺度实验室观测

Pedro Lomonaco, William Mitchell, Kiernan Kelty, Daniel Cox, Tori Tomiczek
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引用次数: 0

摘要

随着沿海社区面临越来越多的慢性和急性灾害,基于自然的沿海工程解决方案迅速受到人们的欢迎和关注。最近关于这一主题的研究表明,这种“绿色基础设施”可能有效地减轻沿海灾害,因此有可能成为传统工程解决方案(如海堤和防波堤)的可持续适应替代方案。然而,绿色基础设施所能提供的保护数量尚未得到广泛的量化。本研究的目的是在原型尺度上量化理想红树林对沿海建筑物的波浪力衰减,并为工程师在红树林的设计和管理中提供指导,以减少风暴波在中等跨岸距离上造成的破坏。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
LARGE SCALE LABORATORY OBSERVATIONS OF WAVE FORCE REDUCTION ON COASTAL BUILDINGS BY AN IDEALIZED MANGROVE FOREST
As coastal communities face increasing chronic and acute hazards, nature-based coastal engineering solutions have experienced a rapid growth in popularity and interest. Recent works on this topic have shown that this “green infrastructure” may be effective at mitigating coastal hazards and thus have potential as sustainable adaptation alternatives to traditional engineering solutions such as seawalls and breakwaters. However, the amount of protection that green infrastructure can provide has yet to be quantified broadly. The purpose of this study is to quantify the wave force attenuation on coastal buildings by an idealized mangrove forest at a prototype scale and provide guidance to engineers in the design and management of mangrove forests to reduce damage due to storm waves over moderate cross-shore distances.
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