Study on Further Improvement of Anti-tsunami Ability of a New Type Bridge Pier

IF 2.1 4区工程技术 Q2 GEOCHEMISTRY & GEOPHYSICS

Journal of Earthquake and Tsunami Pub Date : 2022-06-30 DOI:10.1142/s1793431122500063

Wanli Yang, Hailin Hou, Quanlong Zhu, Junling Liu, Fuhai Li, Lingyuan Zhou

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引用次数: 0

Abstract

Compared with circular, square and diamond piers, the N60 pier proposed in our previous study has been numerically proven to be effective in reducing tsunami force. The relatively stronger vortices behind the N60 pier are responsible for the not-small-enough tsunami force on the N60 pier. The asymmetry in shape makes the N60 pier fail to reduce flood force because flood propagates in the opposite direction of tsunami bore. A series of new type piers named $N α - β$ are proposed to further improve the anti-tsunami ability of the N60 by computational fluid dynamics (CFD) method among which the N60-60 pier is proven to be most effective in reducing tsunami force, and its tsunami force mitigation mechanism is analyzed numerically. Further, the physical experiments were conducted to validate the N60 pier and the new type pier N60-60. Results show that compared with circular, square and diamond piers, the N60 pier is indeed capable of reducing tsunami force, and compared with the N60 pier, the new type N60-60 pier is capable of further reducing tsunami force. The order of magnitudes of tsunami forces on piers is: N60-60 $<$ N60 $<$ circular $<$ diamond $<$ square.

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进一步提高新型桥墩抗海啸能力的研究

与圆形、方形和菱形桥墩相比，我们先前研究中提出的N60桥墩在减少海啸力方面已经得到数值证明。N60桥墩后相对较强的涡是N60桥墩上海啸力不够小的原因。形状上的不对称使得N60桥墩无法减少洪水的作用力，因为洪水的传播方向与海啸的传播方向相反。采用计算流体力学(CFD)方法，提出了一系列新型桥墩Nα−β，进一步提高了N60桥墩的抗海啸能力，其中N60-60桥墩对海啸力的抑制效果最为显著，并对其海啸力减缓机理进行了数值分析。在此基础上，对N60型桥墩和新型桥墩N60-60进行了物理试验验证。结果表明，与圆形、方形和菱形桥墩相比，N60桥墩确实具有减小海啸力的能力，与N60桥墩相比，新型N60-60桥墩具有进一步减小海啸力的能力。海啸作用于桥墩的震级为:N60-60 <N60 & lt;循环& lt;钻石& lt;广场。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Earthquake and Tsunami 地学-地球化学与地球物理

CiteScore

2.60

自引率

13.30%

发文量

审稿时长

>12 weeks

期刊介绍： Journal of Earthquake and Tsunami provides a common forum for scientists and engineers working in the areas of earthquakes and tsunamis to communicate and interact with one another and thereby enhance the opportunities for such cross-fertilization of ideas. The Journal publishes original papers pertaining to state-of-the-art research and development in Geological and Seismological Setting; Ground Motion, Site and Building Response; Tsunami Generation, Propagation, Damage and Mitigation, as well as Education and Risk Management following an earthquake or a tsunami. We welcome papers in the following categories: Geological and Seismological Aspects Tectonics: (Geology - earth processes) Fault processes and earthquake generation: seismology (earthquake processes) Earthquake wave propagation: geophysics Remote sensing Earthquake Engineering Geotechnical hazards and response Effects on buildings and structures Risk analysis and management Retrofitting and remediation Education and awareness Material Behaviour Soil Reinforced concrete Steel Tsunamis Tsunamigenic sources Tsunami propagation: Physical oceanography Run-up and damage: wave hydraulics.