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SPH numerical simulation of tsunami wave forces impinged on bridge superstructures
Sarfaraz, M ; Sharif University of Technology | 2017
831
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- Type of Document: Article
- DOI: 10.1016/j.coastaleng.2016.12.005
- Publisher: Elsevier B.V , 2017
- Abstract:
- This paper addresses numerically-derived tsunami wave loads on bridge superstructures using smoothed particle hydrodynamics (SPH), which is a type of mesh-free methods. Although there exist some relationships for the case of impinged loads on bridges exerted by regular (sinusoidal) waves, for the case of solitary waves such as tsunamis, no relation has yet been proposed in the literature. This shortcoming is partly due to the lack of understanding the mechanism of wave action on the bridge superstructures. In this study, three water depths, three wave amplitudes and four submergence depths of the deck are considered for the process of numerical investigation of tsunami-induced loads on bridge superstructures. The bridge elevation is chosen such that its deck may become either completely emerged, partially submerged or completely submerged upon occurrence of the tsunami event. Comparison of the numerical results with the experiment recordings approves high level of accuracy of the SPH scheme. Based on the obtained results from the numerical modeling, the maximum applied horizontal and vertical forces, to the bridge superstructure are presented for each configuration of water depths, wave amplitudes, and deck elevations. In this way, the maximum clockwise/counterclockwise moments induced at the center of the structure are also determined. Simple non-dimensional equations are proposed for computing the tsunami-induced forces and moments to the bridge superstructures, which can be used for designing the bridge superstructures at the coastal areas. © 2017
- Keywords:
- Coastal bridges ; Numerical modeling ; Smoothed particle hydrodynamics ; SPH ; Tsunami wave forces ; Bridges ; Fluid dynamics ; Numerical models ; Solitons ; Tsunamis ; Bridge superstructure ; Deck elevations ; Mesh free methods ; Non-dimensional equations ; Numerical investigations ; Numerical results ; Tsunami waves ; Hydrodynamics ; Bridge ; Coastal zone ; Induced response ; Numerical method ; Solitary wave ; Tsunami ; Wave force ; Wave-structure interaction
- Source: Coastal Engineering ; Volume 121 , 2017 , Pages 145-157 ; 03783839 (ISSN)
- URL: https://www.sciencedirect.com/science/article/pii/S0378383916304537