The influence of collar parameters on local scour mechanism around the circular pier at the bend

IF 5.7 3区 环境科学与生态学 Q1 WATER RESOURCES
Mohammad Moghanloo, Mohammad Vaghefi, Masoud Ghodsian, Ozgur Kisi
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Abstract

Analysis of bridge failures due to scouring has been extensively studied by different researchers in recent years and as a result various methods of controlling local scour cavity have been given. Since most of the research in this field has been done on straight paths and also the complexity of the flow pattern in bends, studying the scouring pattern around the bridge piers located in the bends has become a necessity. Therefore, one of the main objectives of this study is to investigate the scouring around the circular piers which are protected by collars at the river bends. The performance of the collar significantly depends on its level around the pier, which has been studied in this study. The results showed that the optimal performance of this structure, in positions 60°, 90° and 120° at the level of 0.2 pier width under the bed with 3 mm thickness (0.06 of pier width) by approximately 68, 63 and 70% of the maximum pier scour depth was reduced compared with collarless pier, respectively. By analyzing the results of this research, it was observed that the optimum level range of collar around the pier at various bend angles is the initial bed level up to 0.4 times the pier width at the bottom of the incipient level of the bed. Moreover, getting closer to the plate placement level toward the initial bed elevation enhances the collar’s function in decreasing scouring.

Abstract Image

领圈参数对弯道处圆形桥墩周围局部冲刷机制的影响
近年来,不同的研究人员对冲刷导致的桥梁垮塌进行了广泛研究,并提出了各种控制局部冲刷空洞的方法。由于该领域的大部分研究都是针对直线路径的,而弯道中的水流模式又十分复杂,因此对位于弯道中的桥墩周围的冲刷模式进行研究就变得十分必要。因此,本研究的主要目标之一就是调查河道弯道处受护圈保护的圆形桥墩周围的冲刷情况。护圈的性能在很大程度上取决于其在桥墩周围的水平度,本研究对此进行了研究。研究结果表明,在厚度为 3 毫米(占桥墩宽度的 0.06)的河床下 0.2 桥墩宽度的 60°、90° 和 120°位置,该结构的最佳性能分别比无护栅桥墩的最大冲刷深度减少了约 68%、63% 和 70%。通过对研究结果的分析,可以发现在不同弯曲角度下,墩台周围轴铤的最佳水平范围是基床初始水平面至基床初始水平面底部 0.4 倍墩台宽度。此外,将钢板放置水平面向初始基床标高靠拢,可增强钢领在减少冲刷方面的功能。
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
Applied Water Science
Applied Water Science WATER RESOURCES-
CiteScore
9.90
自引率
3.60%
发文量
268
审稿时长
13 weeks
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