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Numerical simulation of the interaction of a solitary wave with a partially immersed body
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G. S. Khakimzyanov
Published/Copyright:
October 9, 2014
Abstract
- In this paper we give the results on the calculation of the wave motion of a fluid on adaptive grids when a solitary wave runs up at a stationary rectangular body which is partially immersed in a fluid and is not in contact with the bottom. We study the effect of the length and immersion of a body and the amplitude of an incident wave on a maximum wave run-up, the wave pattern in front of and behind a body, force action on a body. Numerical algorithms are based on a one-dimensional nonlinear shallow-water model and a nonlinear model of potential plane flows of an ideal incompressible fluid. We compare the computational results obtained by various models with the experimental data in [9].
Published Online: 2014-10-9
Published in Print: 2002-4-1
© 2014 by Walter de Gruyter Berlin/Boston
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Articles in the same Issue
- Contents
- Momentumless turblent wake dynamics in a linearly stratified medium. The results of numerical experiments
- Far plane turbulent wake dynamics
- Numerical simulation of the interaction of a solitary wave with a partially immersed body
- Splitting algorithms in the finite volume method
- Analysis of quality of numerical grids produced by a comprehensive grid generator
- Compact difference schemes for elliptic equations with mixed derivatives on arbitrary grids
Articles in the same Issue
- Contents
- Momentumless turblent wake dynamics in a linearly stratified medium. The results of numerical experiments
- Far plane turbulent wake dynamics
- Numerical simulation of the interaction of a solitary wave with a partially immersed body
- Splitting algorithms in the finite volume method
- Analysis of quality of numerical grids produced by a comprehensive grid generator
- Compact difference schemes for elliptic equations with mixed derivatives on arbitrary grids
