Hydrodynamic performance of shallow-water waveguides subject to nonlinear waves

The idea of water wave control for ease of shipping or energy exploitation has been the subject of extensive research. Yet, most studies are limited to two-dimensional simulations focusing primarily on transformations of small-amplitude linear waves. This paper presents a theoretical and numerical i...

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Published inPhysics of fluids (1994) Vol. 36; no. 4
Main Authors Cen, Yuhao, Liang, Dongfang, Cheng, Qian, Liu, Xiaodong, Zou, Siyuan
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 01.04.2024
Subjects
Computational fluid dynamics
Electromagnetic radiation
Incident waves
Nonlinearity
Numerical models
Numerical prediction
Refractivity
Shallow water
Water waves
Wave height
Wave reflection
Wave refraction
Waveguides
Online AccessGet full text
ISSN1070-6631
1089-7666
DOI10.1063/5.0198853

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Abstract The idea of water wave control for ease of shipping or energy exploitation has been the subject of extensive research. Yet, most studies are limited to two-dimensional simulations focusing primarily on transformations of small-amplitude linear waves. This paper presents a theoretical and numerical investigation of the hydrodynamic performance of a type of shallow-water waveguides. The concept of an effective refractive index for water waves is proposed through analogy with electromagnetic waves, based on which the wave-controlling mechanism is explained. The precise wave field is revealed using computational fluid dynamics simulations. The numerical model is validated by comparing the numerical predictions with experimental data. Subsequently, the nonlinear wave fields around the waveguide are systematically studied by increasing the incident wave height. The numerical results confirm the significant increase in the wave height above the waveguide platform, as a result of wave refraction and reflection. Such an amplification effect slightly reduces as the nonlinearity of the incident wave increases.
AbstractList The idea of water wave control for ease of shipping or energy exploitation has been the subject of extensive research. Yet, most studies are limited to two-dimensional simulations focusing primarily on transformations of small-amplitude linear waves. This paper presents a theoretical and numerical investigation of the hydrodynamic performance of a type of shallow-water waveguides. The concept of an effective refractive index for water waves is proposed through analogy with electromagnetic waves, based on which the wave-controlling mechanism is explained. The precise wave field is revealed using computational fluid dynamics simulations. The numerical model is validated by comparing the numerical predictions with experimental data. Subsequently, the nonlinear wave fields around the waveguide are systematically studied by increasing the incident wave height. The numerical results confirm the significant increase in the wave height above the waveguide platform, as a result of wave refraction and reflection. Such an amplification effect slightly reduces as the nonlinearity of the incident wave increases.
Author Cheng, Qian
Zou, Siyuan
Cen, Yuhao
Liang, Dongfang
Liu, Xiaodong
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Snippet The idea of water wave control for ease of shipping or energy exploitation has been the subject of extensive research. Yet, most studies are limited to...
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SubjectTerms Computational fluid dynamics
Electromagnetic radiation
Incident waves
Nonlinearity
Numerical models
Numerical prediction
Refractivity
Shallow water
Water waves
Wave height
Wave reflection
Wave refraction
Waveguides
Title Hydrodynamic performance of shallow-water waveguides subject to nonlinear waves
URI http://dx.doi.org/10.1063/5.0198853
https://www.proquest.com/docview/3027958780
Volume 36
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