Journal ArticleDOI
Numerical investigation of the solitary wave breaking over a slope by using the finite particle method
TLDR
In this paper, a numerical investigation of the solitary wave breaking over a slope by using a finite particle method (FPM), which is an enhanced smoothed particle hydrodynamics (SPH), is presented.About:
This article is published in Coastal Engineering.The article was published on 2020-03-01. It has received 63 citations till now. The article focuses on the topics: Breaking wave & Wave height.read more
Citations
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Particle methods in ocean and coastal engineering
TL;DR: In this paper, a review of particle methods in hydrodynamics-related problems in ocean and coastal engineering is presented, where the problems are placed into three categories according to their physical characteristics, namely, wave hydrodynamic and corresponding mass transport, wave-structure interaction, and wave-current-sediment interaction.
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An accurate FSI-SPH modeling of challenging fluid-structure interaction problems in two and three dimensions
TL;DR: Sun et al. as mentioned in this paper combined the multi-resolution δ + -SPH scheme and a total Lagrangian SPH method for more complex three-dimensional (3D) Fluid Structure Interaction (FSI) problems.
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Coupling edge-based smoothed finite element method with smoothed particle hydrodynamics for fluid structure interaction problems
TL;DR: Wang et al. as mentioned in this paper proposed a coupling edge-based smoothed finite element method (ES-FEM) and smoothed particle hydrodynamics (SPH) method for solving fluid structure interaction (FSI) problems.
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Further enhancement of the particle shifting technique: Towards better volume conservation and particle distribution in SPH simulations of violent free-surface flows
TL;DR: It is demonstrated that the new PST incorporating with the CCF shows satisfactory performance to improve the conservation of total fluid volume, and to obtain more uniform particle distribution in the proximity of the free-surface.
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Improved element-particle coupling strategy with δ-SPH and particle shifting for modeling sloshing with rigid or deformable structures
TL;DR: In this article, the coupling strategy of an improved particle hydrodynamics (SPH) method and smoothed finite element method (SFEM) is integrated with advanced fluid modeling techniques, and is extended and validated for modeling liquid sloshing with rigid or deformable structures.
References
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Journal ArticleDOI
Smoothed particle hydrodynamics: Theory and application to non-spherical stars
R. A. Gingold,Joseph J Monaghan +1 more
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Smoothed particle hydrodynamics.
TL;DR: In this paper, the theory and application of Smoothed particle hydrodynamics (SPH) since its inception in 1977 are discussed, focusing on the strengths and weaknesses, the analogy with particle dynamics and the numerous areas where SPH has been successfully applied.
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Simulating Free Surface Flows with SPH
TL;DR: In this paper, the SPH (smoothed particle hydrodynamics) method is extended to deal with free surface incompressible flows, and examples are given of its application to a breaking dam, a bore, the simulation of a wave maker, and the propagation of waves towards a beach.
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Smoothed Particle Hydrodynamics (SPH): an Overview and Recent Developments
Moubin Liu,Gui-Rong Liu +1 more
TL;DR: An overview on the SPH method and its recent developments is presented, including the need for meshfree particle methods, and advantages of SPH, and several important numerical aspects.
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The runup of solitary waves
TL;DR: In this article, an approximate theory is presented for non-breaking waves and an asymptotic result is derived for the maximum runup of solitary waves on plane beaches, and a series of laboratory experiments is described to support the theory.