Numerical modeling of surface wave development under the action of wind-Reference-Cited by-同舟云学术

Numerical modeling of surface wave development under the action of wind

Published:2018-06-11 Issue:3 Volume:14 Page:453-470
ISSN:1812-0792
Container-title:Ocean Science
language:en
Short-container-title:Ocean Sci.

Author:

Chalikov Dmitry

Abstract

Abstract. The numerical modeling of two-dimensional surface wave development under the action of wind is performed. The model is based on three-dimensional equations of potential motion with a free surface written in a surface-following nonorthogonal curvilinear coordinate system in which depth is counted from a moving surface. A three-dimensional Poisson equation for the velocity potential is solved iteratively. A Fourier transform method, a second-order accuracy approximation of vertical derivatives on a stretched vertical grid and fourth-order Runge–Kutta time stepping are used. Both the input energy to waves and dissipation of wave energy are calculated on the basis of earlier developed and validated algorithms. A one-processor version of the model for PC allows us to simulate an evolution of the wave field with thousands of degrees of freedom over thousands of wave periods. A long-time evolution of a two-dimensional wave structure is illustrated by the spectra of wave surface and the input and output of energy.

Funder

Russian Science Foundation

Publisher

Copernicus GmbH

Subject

Cell Biology,Developmental Biology,Embryology,Anatomy

Link

https://os.copernicus.org/articles/14/453/2018/os-14-453-2018.pdf

Reference71 articles.

1. Alberello, A., Chabchoub, A., Monty, J. P., Nelli, F., Lee, J. H., Elsnab, J., and Toffoli, A.: An experimental comparison of velocities underneath focused breaking waves, Ocean Eng., 155, 201–210 2018.

2. Alves, J. H. G. M. and Banner, M. L.: Performance of a Saturation-Based Dissipation-Rate Source Term in Modeling the Fetch-Limited Evolution of Wind Waves, J. Phys. Oceanogr., 33, 1274–1298, 2003.

3. Al'Zanaidi, M. A. and Hui, H. W: Turbulent airflow over water waves-a numerical study, J. Fluid Mech., 148, 225–246, 1984.

4. Babanin, A. V., Tsagareli, K. N., Young, I. R., and Walker, D. J.: Numerical Investigation of Spectral Evolution of Wind Waves. Part II: Dissipation Term and Evolution Tests, J. of Phys. Oceanography, 40, 667–683, 2010.

5. Babanin, A. V.: Breaking and Dissipation of Ocean Surface Waves, Cambridge University Press, The Edinburgh Building, Cambridge, UK, 480 pp., 2011.

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