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Numerical Simulation of Wave Overtopping Using an Incompressible SPH Method

Shao, S. D. / Reeve, D. E. / Chadwick, A. J. / James, P. W. / Graham, D. I.

In this paper an incompressible Smoothed Particle Hydrodynamics (SPH) method combined with a Large Eddy Simulation (LES) model is used to investigate wave overtopping. SPH is a pure Lagrangian approach which can handle large deformations of the free surface with high accuracy. Two different cases are used to test the model, namely storm wave overtopping of a fixed horizontal deck and random wave overtopping of a sloping seawall. The computations are validated against experimental and numerical data in the literature and good agreement is found.

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Numerical Simulation of Wave Overtopping Using an Incompressible SPH Method

Shao, S. D. / Reeve, D. E. / Chadwick, A. J. / James, P. W. / Graham, D. I.

In this paper an incompressible Smoothed Particle Hydrodynamics (SPH) method combined with a Large Eddy Simulation (LES) model is used to investigate wave overtopping. SPH is a pure Lagrangian approach which can handle large deformations of the free surface with high accuracy. Two different cases are used to test the model, namely storm wave overtopping of a fixed horizontal deck and random wave overtopping of a sloping seawall. The computations are validated against experimental and numerical data in the literature and good agreement is found.

Numerical Simulation of Wave Overtopping Using an Incompressible SPH Method

Shao, S. D. / Reeve, D. E. / Chadwick, A. J. / James, P. W. / Graham, D. I.

In this paper an incompressible Smoothed Particle Hydrodynamics (SPH) method combined with a Large Eddy Simulation (LES) model is used to investigate wave overtopping. SPH is a pure Lagrangian approach which can handle large deformations of the free surface with high accuracy. Two different cases are used to test the model, namely storm wave overtopping of a fixed horizontal deck and random wave overtopping of a sloping seawall. The computations are validated against experimental and numerical data in the literature and good agreement is found.

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Title:

Numerical Simulation of Wave Overtopping Using an Incompressible SPH Method

Contributors:

Shao, S. D. (author) / Reeve, D. E. (author) / Chadwick, A. J. (author) / James, P. W. (author) / Graham, D. I. (author)

Conference:

Fifth International Conference on Coastal Dynamics ; 2005 ; Barcelona, Spain

Published in:

Coastal Dynamics 2005 ; 1-11

Publication date:

2006-09-06

ISBN:

DOI:

https://doi.org/10.1061/40855(214)116

Type of media:

Conference paper

Type of material:

Electronic Resource

Language:

English

Keywords:

Coastal engineering , Morphology , Numerical models , Sediment , Hydrodynamics , Coastal structures , Simulation , Wave overtopping

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