Evolution of a nonlinear wave field along a tank: experiments and numerical simulations based on the spatial Zakharov equation

L. SHEMER; HAIYING JIAO; E. KIT; Y. AGNON

doi:10.1017/S0022112000002305

Abstract

Evolution of a nonlinear wave field along a laboratory tank is studied experimentally and numerically. The numerical study is based on the Zakharov nonlinear equation, which is modified to describe slow spatial evolution of unidirectional waves as they move along the tank. Groups with various initial shapes, amplitudes and spectral contents are studied. It is demonstrated that the applied theoretical model, which does not impose any constraints on the spectral width, is capable of describing accurately, both qualitatively and quantitatively, the slow spatial variation of the group envelopes. The theoretical model also describes accurately the variation along the tank of the spectral shapes, including free wave components and the bound waves.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Sedletsky, Yu. V. 2003. The fourth-order nonlinear Schrödinger equation for the envelope of Stokes waves on the surface of a finite-depth fluid. Journal of Experimental and Theoretical Physics, Vol. 97, Issue. 1, p. 180.

Kharif, Christian and Pelinovsky, Efim 2003. Physical mechanisms of the rogue wave phenomenon. European Journal of Mechanics - B/Fluids, Vol. 22, Issue. 6, p. 603.

Lvov, Yuri V. and Nazarenko, Sergey 2004. Noisy spectra, long correlations, and intermittency in wave turbulence. Physical Review E, Vol. 69, Issue. 6,

Sedletsky, Yu.V. 2005. The modulational instability of Stokes waves on the surface of finite-depth fluid. Physics Letters A, Vol. 343, Issue. 4, p. 293.

Clamond, Didier Francius, Marc Grue, John and Kharif, Christian 2006. Long time interaction of envelope solitons and freak wave formations. European Journal of Mechanics - B/Fluids, Vol. 25, Issue. 5, p. 536.

Pelinovsky, Efim and Sergeeva (Kokorina), Anna 2006. Numerical modeling of the KdV random wave field. European Journal of Mechanics - B/Fluids, Vol. 25, Issue. 4, p. 425.

Shemer, L. Goulitski, K. and Kit, E. 2007. Evolution of wide-spectrum unidirectional wave groups in a tank: an experimental and numerical study. European Journal of Mechanics - B/Fluids, Vol. 26, Issue. 2, p. 193.

Gibson, R.S and Swan, C 2007. The evolution of large ocean waves: the role of local and rapid spectral changes. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 463, Issue. 2077, p. 21.

Chiang, Wen-Son Hsiao, Shih-Chun and Hwung, Hwung-Hweng 2007. Evolution of sidebands in deep-water bichromatic wave trains. Journal of Hydraulic Research, Vol. 45, Issue. 1, p. 67.

Zou, Z.L. and Fang, K.Z. 2008. Alternative forms of the higher-order Boussinesq equations: Derivations and validations. Coastal Engineering, Vol. 55, Issue. 6, p. 506.

Shemer, Lev and Sergeeva, Anna 2009. An experimental study of spatial evolution of statistical parameters in a unidirectional narrow‐banded random wavefield. Journal of Geophysical Research: Oceans, Vol. 114, Issue. C1,

Janssen, T. T. and Herbers, T. H. C. 2009. Nonlinear Wave Statistics in a Focal Zone. Journal of Physical Oceanography, Vol. 39, Issue. 8, p. 1948.

Shemer, Lev Sergeeva, Anna and Slunyaev, Alexey 2010. Applicability of envelope model equations for simulation of narrow-spectrum unidirectional random wave field evolution: Experimental validation. Physics of Fluids, Vol. 22, Issue. 1,

Young, Chih‐Chieh and Wu, Chin H. 2010. A σ‐coordinate non‐hydrostatic model with embedded Boussinesq‐type‐like equations for modeling deep‐water waves. International Journal for Numerical Methods in Fluids, Vol. 63, Issue. 12, p. 1448.

Fang, K.Z. and Zou, Z.L. 2010. Boussinesq-type equations for nonlinear evolution of wave trains. Wave Motion, Vol. 47, Issue. 1, p. 12.

Young, Chih-Chieh and Wu, Chin H. 2010. Nonhydrostatic Modeling of Nonlinear Deep-Water Wave Groups. Journal of Engineering Mechanics, Vol. 136, Issue. 2, p. 155.

KIOKA, Wataru OKAJIMA, Masashi and KITANO, Toshikazu 2011. Reflection of Strongly Nonlinear Waves from a Vertical Wall on a Sloping Beach. Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal Engineering), Vol. 67, Issue. 2, p. I_1.

Goullet, Arnaud and Choi, Wooyoung 2011. A numerical and experimental study on the nonlinear evolution of long-crested irregular waves. Physics of Fluids, Vol. 23, Issue. 1,

Katsardi, V. and Swan, C. 2011. The evolution of large non-breaking waves in intermediate and shallow water. I. Numerical calculations of uni-directional seas. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 467, Issue. 2127, p. 778.

Fang, Kezhao Liu, Zhongbo Gui, Qinqin Zou, Zhili and Yin, Jiwei 2013. Alternative Forms of Enhanced Boussinesq Equations with Improved Nonlinearity. Mathematical Problems in Engineering, Vol. 2013, Issue. , p. 1.

Download full list

Article contents

Evolution of a nonlinear wave field along a tank: experiments and numerical simulations based on the spatial Zakharov equation

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Evolution of a nonlinear wave field along a tank: experiments and numerical simulations based on the spatial Zakharov equation

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests