Bridge Failure Prevention: An Overview of Self-Protected Pier as Flow Altering Countermeasures for Scour Protection

Ibtesam Abudallah Habib, W. Mohtar, K. Shahot, A. El-shafie, Teh Sabariah Abd Manan
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引用次数: 3

Abstract

The inherent scour process around the bridge piers needs to be considered and crucial to ensure a sustainable and economical bridge design. The performance of any scour protection/controlling devices around bridge piers is determined on how each device counters or minimize the scouring process. Besides the usually adopted bed armouring, abundant studies have been conducted to evaluate the efficiency of flow-altering countermeasures in reducing local scour depth. The flow changes due to the rigid pier are modified in a way to reduce the impinging effect on the bed. This paper discusses on the performance and feasibility of self-protected piers, defined as a pier without any additional structure built either next to or at a distance away from the pier. We paid attention to the efficiency of the proposed countermeasures in terms of possible maximum scour reduction and provide the best configuration of each self-protection pier. This review consists of analysis on the openings on pier including internal tubing, slot and pier groups, and modified pier shapes as the flow-altering, self-protected countermeasure alternatives.
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桥梁故障预防:作为防冲刷变流对策的自保护桥墩综述
桥墩周围的固有冲刷过程需要考虑,这对于确保可持续和经济的桥梁设计至关重要。桥墩周围任何冲刷保护/控制装置的性能取决于每个装置如何对抗或最小化冲刷过程。除了通常采用的河床护甲外,人们还进行了大量的研究,以评估改变水流的对策在减少局部冲刷深度方面的效果。对刚性桥墩引起的流动变化进行了修正,以减小对河床的冲击效应。本文讨论了自保护墩的性能和可行性,自保护墩的定义是在墩旁边或离墩很远的地方没有任何附加结构的墩。我们关注了所提出的对策在可能最大限度地减少冲刷方面的效率,并提供了每个自保墩的最佳配置。本文分析了桥墩上的开口,包括内油管、槽和桥墩组,以及改变桥墩形状作为改变流量、自我保护的对策方案。
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来源期刊
CiteScore
1.30
自引率
60.00%
发文量
0
审稿时长
47 weeks
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