Abstract
Bridge pile foundations in servic e are subjected to long-term scour erosion caused by sediment-laden water flow,leading to a gradual expansion of the eroded and worn areas.This in turn results in varying degrees of damage to the pile foundation structure and reduces the durability and safety of the bridge.In order to study the impact of scour erosion on bridge pile foundations,this study took the Hanjiang No.1 Bridge in Ankang City as the research object.The ANSYS FLUENT software was used to conduct three-dimensional numerical simulations of the pile foundation and analyze the distribution characteristics and patterns of scour erosion under different conditions.The results show that:① Scour erosion areas are mainly concentrated on the upstream surface of the pile cap,the joint between the pile and the cap,and both sides of the pile shaft;the downstream surface of the cap and the downstream side of the pile shaft experience less erosion.The erosion effect of sediment on the pile foundation is mainly due to impact and cutting;② Under the same sediment concentration,smaller sediment particle size results in a larger scour erosion area.Increases in flow velocity,sediment particle size,sediment concentration,and pile diameter all contribute to a higher erosion rate,among which flow velocity has the greatest influence.The research results can provide a reference for the design and construction of bridge pile foundations in service.
Publication Date
6-23-2025
DOI
10.14048/j.issn.1671-2579.2025.03.019
First Page
153
Last Page
162
Submission Date
August 2025
Recommended Citation
Shang, WANG; Jiangchuan, MI; Mingtao, CHEN; Dan, SONG; Qiao, ZHANG; Yong, ZHANG; and Weixiao, WANG
(2025)
"Numerical Simulation Study on Scour Erosion of Bridge Pile Foundations in Service,"
Journal of China & Foreign Highway: Vol. 45:
Iss.
3, Article 19.
DOI: 10.14048/j.issn.1671-2579.2025.03.019
Available at:
https://zwgl1980.csust.edu.cn/journal/vol45/iss3/19
Reference
[1]卢文壮,郑宗雨,赵文茹,等.中国桥梁发展与标准化 [J].标准科学,2021 (增刊 1):240-246.LU Wenzhuang,ZHENG Zongyu,ZHAO Wenru,et al.Development and standardization of bridges in China [J].Standard Science,2021 (sup 1):240-246
[2]张洪亮,黄景海.桥梁外露桩基加固施工质量控制 [J].黑龙江交通科技,2016,39(12):156-157.ZHANG Hongliang,HUANG Jinghai.Quality control of bridge exposed pile foundation reinforcement construction[J].Communications Science and Technology Heilongjiang,2016,39(12):156-157.
[3]刘辉,蒋燕华,闫杰超.桩承台桥墩基础局部冲刷计算方法 对 比 研 究 [J/OL ].中 外 公 路,1-11[2024 -11-18].https://kns.cnki.net/kcms/detail/ 43.1363.U.20241118.0858.002.html.LIU Hui,JIANG Yanhua,YAN Jiechao.Comparative study on calculation methods of local scour of pile cap pier foundation [J/OL ].Journal of China & Foreign Highway,1-11[2024 -11-18].https://kns.cnki.net/kcms/detail/ 43.1363.U.20241118.0858.002.html.
[4]林 树 奎,李 宁.长 周 期 波 涌 浪 海 域 承 台 钢 吊 箱 封 底 技 术研究 [J].中外公路,2021,41(2):139-143.LIN Shukui,LI Ning.Research on bottom sealing technology o f steel hanging box of pile cap in long-period wave area [J].Journal of China & Foreign Highway,2021,41(2):139-143.
[5]蔡新华,何真,查进,等.冲磨速率和角度对海工混凝土抗冲磨性能的影响 [J].建筑材料学报,2013,16(5):782-786.CAI Xinhua,HE Zhen,ZHA Jin,et al.Influences of impinging velocities and impinging angles on abrasion-erosion resistance of marine concrete [J].Journal of Building Materials,2013,16(5):782-786.
[6]王乾龙.复杂地质条件下低应变法基桩检测研究 [J].铁道勘察,2019,45(4):66-69.WANG Qianlong.Detection and analysis of piles in low strain method under complex geological conditions [J].Railway Investigation and Surveying,2019,45(4):66-69.
[7]冯忠居,王泽国,赵瑞欣,等.波流冲刷作用下变截面桩承载性能劣化的研究 [J].公路,2022,67(11):77-85.FENG Zhongju,WANG Zeguo,ZHAO Ruixin,et al.Research on the evolution of load-bearing performance of variable cross-section piles under the action of wave and current scour [J].Highway,2022,67(11):77-85.
[8]彭建新,柴莹,张建仁.桥梁结构服役状态可靠度评估综述[J].中外公路,2023,43(4):1-7.PENG Jianxin,CHAI Ying,ZHANG Jianren.Summarization of reliability theory for condition assessment of brige structurs [J].Journal of China & Foreign Highway,2023,43(4):1-7.
[9]袁明,王烁,颜东煌,等.基于声发射和卷积神经网络的混凝土桥梁损伤预测研究 [J].中外公路,2022,42(4):69-75.YUAN Ming,WANG Shuo,YAN Donghuang,et al.Study on damage prediction of concrete bridges based on acoustic emission and convolutional neural network [J].Journal of China & Foreign Highway,2022,42(4):69-75.
[10]秦泗凤.近期中国桥梁水毁事故回顾与分析 [J].中外公路,2022,42(1):133-138.QIN Sifeng.Review and discussion of recentwater damage accidents of bridges in China [J].Journal of China & Foreign Highway,2022,42(1):133-138.
[11]ZHANG Y L,MCLAURY B S,SHIRAZI S,et al.A two-dimensional mechanistic model for sand erosion prediction including particle impact characteristics [C]//San Antonio:NACE Corrosion 2010 Conference & Expo:Conference Papers on CD-ROM,2010.
[12]李镜培,李险峰,李林,等.硫酸盐侵蚀损伤劣化基桩竖向承载特性 [J].上海交通大学学报,2016,50(11):1761 -1766.LI Jingpei,LI Xianfeng,LI Lin,et al.Axial bearing behavior of deteriorated foundation pile under sulfate attack [J].Journal of Shanghai Jiao Tong University,2016,50(11):1761 -1766.
[13]YAN Y,TIAN T,WANG B.Impact of marine chloride ion erosion environment on the durability of deep sea pile foundation [J].Journal of Coastal Research,2019,98(sup 1):6.
[14]刘琦,毛少华,刘胜,等.湍流模型对弯管磨损计算的影响分析 [J].中国舰船研究,2019,14(4):85-90.LIU Qi,MAO Shaohua,LIU Sheng,et al.Analysis on the influence of turbulence model on elbow erosion calculation [J].Chinese Journal of Ship Research,2019,14(4):85-90.
[15]郭春海,杨旸,陈希良,等.海洋平台桩基冲刷的数值研究[J].水动力学研究与进展 A辑,2015,30(1):33-39.GUO Chunhai,YANG Yang,CHEN Xiliang,et al.Numerical study on scour around pile foundation of offshore platform [J].Chinese Journal of Hydrodynamics,2015,30(1):33-39.
[16]FENG Z J,HUO J W,HU H B,et al.Research on corrosion damage and bearing characteristics of bridge pile foundation concrete under a dry-wet-freeze-thaw cycle [J].Advances in Civil Engineering,2021,2021 (1):8884396.
[17]解刚,刘海鹏,赵宝俊,等.考虑冲刷效应的黄土沟壑区桥梁 桩 基 极 限 承 载 力 计 算 方 法 [J].建 筑 科 学 与 工 程 学 报,2020,37(4):108-115.XIE Gang,LIU Haipeng,ZHAO Baojun,et al.Calculation method of ultimate bearing capacity of bridge pile foundation in loess gully area considering scour effect [J].Journal of Architecture and Civil Engineering,2020,37(4):108-115.
[18]余志祥,张蓬勃,赵雷,等.山区桥梁墩柱水沙磨蚀损伤调查 与 仿 真 分 析 [J].防 灾 减 灾 工 程 学 报,2016,36(6):919-926.YU Zhixiang,ZHANG Pengbo,ZHAO Lei,et al.Investigation and numerical calculation of bridge pier in mountain area under erosion of flow and sediment [J].Journal of Disaster Prevention and Mitigation Engineering,2016,36(6):919-926.
[19]王前.流水冲击作用下桥梁承台及桩基础冲蚀数值模拟研究 [D].南昌:华东交通大学,2017.WANG Qian.Numerical simulation study on the erosion of abutment and pile foundation under the impact of water flow [D].Nanchang:East China Jiaotong University,2017.
[20]冯忠居,陈景星,苏航州,等.黄河下游在役桥梁群桩基础冲刷特性 [J].人民黄河,2017,39(12):96-100.FENG Zhongju,CHEN Jingxing,SU Hangzhou,et al.Research of scouring characteristics of bridge group pile foundation in service in the lower Yellow River [J].Yellow River,2017,39(12):96-100.
[21]李金钊.近海岸桥墩冲刷理论与数值模拟 [D].北京:北京交通大学,2017.LI Jinzhao.Theory and numerical simulation of pier scouring near the coast [D].Beijing:Beijing Jiaotong University,2017.
[22]叶凌志.携砂水流对桥墩冲蚀磨损的试验和数值模拟研究[D].成都:西南交通大学,2021.YE Lingzhi.Experimental and numerical simulation study on erosion and wear of pier by sand-laden flow [D].Chengdu:Southwest Jiaotong University,2021.
[23]马晓东,张惠尧,张宪堂,等.桥梁基桩在含砂水流冲击作用 下 的 冲 蚀 磨 损 数 值 模 拟 研 究 [J].水 利 水 电 技 术 (中 英文),2021,52(3):76-82.MA Xiaodong,ZHANG Huiyao,ZHANG Xiantang,et al.Numerical simulation study on erosion and wear of bridge pile foundation under the impact of sandy water flow [J].Water Resources and Hydropower Engineering,2021,52(3):76-82.
[24]杨熠琳.桥梁群桩基础局部冲刷机理研究 [D].北京:北京交通大学,2020.YANG Yilin.Study on local scour mechanism of bridge group pile foundation [D].Beijing:Beijing Jiaotong University,2020.
[25]郭 超.桥 墩 冲 刷 与 波 流 力 的 试 验 研 究 [D].北 京:清 华 大学,2012.GUO Chao.Experimental study on pier scouring and wave-current force [D].Beijing:Tsinghua University,2012.
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