Numerical investigation on wave attenuation through rigid plants

被引:0
|
作者
Yin, Zegao [1 ,2 ]
Yang, Xiaoyu [1 ]
Ma, Lin [1 ]
Xu, Yuanzhao [1 ]
Lu, Haixiang [1 ]
机构
[1] Ocean Univ China, Engn Coll, Qingdao 266100, Peoples R China
[2] Ocean Univ China, Shandong Prov Key Lab Ocean Engn, Qingdao 266100, Peoples R China
来源
Proceedings of the Second Conference of Global Chinese Scholars on Hydrodynamics (CCSH'2016), Vols 1 & 2 | 2016年
关键词
rigid plants; wave attenuation; wave transmission coefficient; wave energy dissipation ratio;
D O I
暂无
中图分类号
O3 [力学];
学科分类号
08 ; 0801 ;
摘要
A 3-D mathematical model was conducted to investigate the wave attenuation performance of rigid plants using the software FLOW-3D. The standard RNG k-omega model was used in turbulence closure models. The Volume of Fluid method was adopted to track the free wave surface. The Finite Difference Method was employed to solve the controlling equations. The mathematical model was validated well with related experimental data. It was found that wave transmission coefficient decreased with increasing relative height of plants and wave height respectively. However, the wave energy dissipation ratio appeared an opposite trend.
引用
收藏
页码:932 / 937
页数:6
相关论文
共 50 条
  • [1] A Laboratory and Numerical Study of Wave Attenuation Through Rigid Vegetation
    Phan, L. K.
    Truong, S. H.
    Stive, M. J. F.
    PROCEEDINGS OF THE 39TH IAHR WORLD CONGRESS, 2022, : 4561 - 4565
  • [2] MODELING WAVE ATTENUATION WITH RIGID VEGETATION PLANTS
    Liu, Don
    Zheng, Yonglai
    ASME FLUIDS ENGINEERING DIVISION SUMMER MEETING - 2014, VOL 1D: SYMPOSIA, 2014,
  • [3] Numerical Investigation of Wave Attenuation by Rigid Vegetation Based on a Porous Media Approach
    Hadadpour, Sanaz
    Paul, Maike
    Oumeraci, Hocine
    JOURNAL OF COASTAL RESEARCH, 2019, : 92 - 100
  • [4] Experimental Investigation of Wave Attenuation through Flexible Plants on a Flat Bed
    Yin, Zegao
    Yang, Xiaoyu
    Liang, Bingchen
    Jin, Lu
    Ma, Lin
    JOURNAL OF COASTAL RESEARCH, 2018, 34 (03) : 718 - 723
  • [5] Numerical Study on Wave Attenuation of Tsunami-Like Wave by Emergent Rigid Vegetation
    Qu, K.
    Lan, G. Y.
    Kraatz, S.
    Sun, W. Y.
    Deng, B.
    Jiang, C. B.
    JOURNAL OF EARTHQUAKE AND TSUNAMI, 2021, 15 (06)
  • [6] Experimental and numerical investigation on shock wave attenuation in a chamber
    Wu, Zhangjun
    Jin, Dongyan
    Yu, Bingbing
    Chen, Shengyun
    Deng, Shuxin
    Song, Xianzhao
    Yu, Wenjun
    Sui, Yaguang
    Wu, Huajie
    Shi, Weizheng
    Wang, Mingyang
    SCIENTIFIC REPORTS, 2025, 15 (01):
  • [7] Theoretical and numerical investigation of wave attenuation on vegetated seabeds
    De Padova, Diana
    Ben Meftah, Mouldi
    Mossa, Michele
    EARTH SURFACE PROCESSES AND LANDFORMS, 2025, 50 (05)
  • [8] WAVE ATTENUATION THROUGH AN ARRAY OF RIGID CIRCULAR CYLINDERS: A LABORATORY STUDY
    Huang, Z. H.
    Zhang, W. B.
    PROCEEDINGS OF THE 6TH INTERNATIONAL CONFERENCE ON APAC 2011, 2012,
  • [9] Numerical investigation of solitary wave attenuation and resistance induced by rigid vegetation based on a 3-D RANS model
    Wang, Yanxu
    Yin, Zegao
    Liu, Yong
    ADVANCES IN WATER RESOURCES, 2020, 146
  • [10] Numerical study on wave attenuation of extreme waves by emergent rigid vegetation patch
    Qu, K.
    Lan, G. Y.
    Sun, W. Y.
    Jiang, C. B.
    Yao, Y.
    Wen, B. H.
    Xu, Y. Y.
    Liu, T. W.
    OCEAN ENGINEERING, 2021, 239
12345