Hydroelastic Investigation on A Pile Breakwater Integrated with A Flexible Tail for Long-Wave Attenuation  

作　　者：ZHANG Chong-wei ZHUANG Qian-ze LI Jin-xuan HUANG Luo-feng NING De-zhi 

机构地区：[1]State Key Laboratory of Coastal and Offshore Engineering,Dalian University of Technology,Dalian 116024,China [2]School of Water,Energy and Environment,Cranfield University,Cranfield MK430AL,United Kingdom

出　　处：《China Ocean Engineering》2022年第5期667-681,共15页中国海洋工程（英文版）

基　　金：financially supported by the National Natural Science Foundation of China(Grant No.51739010);the Natural Science Foundation of Liaoning Province(Grant No.2021-MS-122);the Special Project of Guangdong Science and Technology Department(Grant No.2021A05227);the Dalian Science and Technology Project(Grant No.2020RQ004);the Fundamental Research Funds for the Central Universities(Grant No.DUT22LAB128).

摘　　要：A novel concept of wave attenuator is proposed for the defense of long waves,through integrating a flexible tail to the lee-side surface of a pile breakwater.The flexible tail works as a floating blanket made up of hinged blocks,whose scale and stiffness can be easily adjusted.A two-phase-flow numerical model is established based on the open-source computational fluid dynamics(CFD)code OpenFOAM to investigate its wave attenuation performance.Incompressible Navier−Stokes equations are solved in the fluid domain,where an additional computational solid mechanics(CSM)solver is embedded to describe the elastic deformation of the floating tail.The coupling of fluid dynamics and structural mechanics is solved in a full manner to allow assess of wave variation along the deforming body.The accuracy of the numerical model is validated through comparison with experimental data.Effects of the flexible tail on performance of the pile breakwater are investigated systematically.Dynamic behaviours of the tail are examined,and characteristics of its natural frequency are identified.For safety reasons,the wave loads impacting on the main body of the pile breakwater and the stress distribution over the tail are specially examined.It is found that both the length and stiffness of the tail can affect the wave-attenuation performance of the breakwater.A proper choice of the length and stiffness of the tail can greatly improve the long-wave defending capability of the pile breakwater.The maximum stress over the flexible tail can be restrained through optimising the deformation and stiffness of the tail.

关 键 词：wave attenuator pile breakwater OPENFOAM fluid-structure interaction wave transmission coastal protection 

分 类 号：U656.2[交通运输工程—港口、海岸及近海工程] P731.22[交通运输工程—船舶与海洋工程]