Smoothed Particle Hydrodynamics Simulation And Evaluation Of Water Flow Pressure On Bridge Piers

Long Nguyen-Ngoc; Tu Anh Do; Thuan Huu Nguyen; Tien Duy Nguyen; Anh Tuan Tran; Nam Xuan Ho; Dinh Hai Nguyen

doi:10.6180/jase.202310_26(10).0012

Journal of Applied Science and Engineering (Apr 2023)

Smoothed Particle Hydrodynamics Simulation And Evaluation Of Water Flow Pressure On Bridge Piers

Long Nguyen-Ngoc,
Tu Anh Do,
Thuan Huu Nguyen,
Tien Duy Nguyen,
Anh Tuan Tran,
Nam Xuan Ho,
Dinh Hai Nguyen

Affiliations

Long Nguyen-Ngoc: Department of Bridge Engineering and Underground Infrastructure, University of Transport and Communications, No. 3 Cau Giay Street, Dong Da District, Hanoi, Vietnam
Tu Anh Do: Department of Bridge Engineering and Underground Infrastructure, University of Transport and Communications, No. 3 Cau Giay Street, Dong Da District, Hanoi, Vietnam
Thuan Huu Nguyen: Department of Bridge Engineering and Underground Infrastructure, University of Transport and Communications, No. 3 Cau Giay Street, Dong Da District, Hanoi, Vietnam
Tien Duy Nguyen: Department of Bridge Engineering and Underground Infrastructure, University of Transport and Communications, No. 3 Cau Giay Street, Dong Da District, Hanoi, Vietnam
Anh Tuan Tran: Department of Bridge Engineering and Underground Infrastructure, University of Transport and Communications, No. 3 Cau Giay Street, Dong Da District, Hanoi, Vietnam
Nam Xuan Ho: Department of Bridge Engineering and Underground Infrastructure, University of Transport and Communications, No. 3 Cau Giay Street, Dong Da District, Hanoi, Vietnam
Dinh Hai Nguyen: Department of Construction Materials, University of Transport and Communications, No. 3 Cau Giay Street, Dong Da District, Hanoi, Vietnam

DOI: https://doi.org/10.6180/jase.202310_26(10).0012
Journal volume & issue: Vol. 26, no. 10
pp. 1471 – 1479

Abstract

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In this study, a Smoothed Particle Hydrodynamics (SPH) model for fluid-solid interaction is developed considering the effect of water flow transient impact, water pressure and velocity around a bridge pier. Two common types of bridge pier shape consisting of rectangular and circular piers are analyzed. The SPH predicted water pressure values and those calculated using the Computational Fluid Dynamics (CFD) method and the AASHTO LRFD bridge design specifications. The results show that the pier shape has a significant influence on the resultant water flow pressure acting on the pier. The values computed using the numerical methods (SPH and CFD) are similar but both smaller than that computed according to the AASHTO code when the fluid velocity is greater than 4 m/s acting on the rectangular pier. The obtained results can be used to examine the water flow velocity and pressure around bridge piers, and to evaluate the risk of soil scouring at the pier locations. The methodology proposed in this research can improve the accuracy of computed impact force values in bridge design.

Published in Journal of Applied Science and Engineering

ISSN: 2708-9967 (Print); 2708-9975 (Online)
Publisher: Tamkang University Press
Country of publisher: Taiwan, Province of China
LCC subjects: Technology: Engineering (General). Civil engineering (General); Technology: Chemical technology: Chemical engineering; Science: Physics
Website: http://jase.tku.edu.tw/

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