河床矩形形态对泥沙输运的影响

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Omed Mohammed Pirot, S. Harun
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引用次数: 0

摘要

泥沙运输是由重力、流动流体的力、风和冰的运动引起的有机和无机颗粒的运动。泥沙淤积降低了大坝的安全性,造成环境污染,河道面积减少。本研究描述了明渠中已使用和未使用的矩形构筑物的堰高和间距对输沙速率的影响。该项目使用了一个矩形的开放通道(30厘米宽,60厘米深)。在河道内设置尖顶堰,并在每个堰的特定位置固定矩形木结构,以减少河床输沙速率和泥沙运动。堰高不同(0.25B、0.35B、0.45B、0.55B,其中B为河道宽度)。挡板之间的间距设为4Y、8Y、12Y、16Y,其中Y为不安装挡块和堰的最大水深。结果表明:最低堰的最大输沙量为1.4 kg/min,而高16.5 cm加挡板堰的最大输沙量为4.4 × 10-3 kg/min;使用长挡板块产生的结果比不使用块更差。7.5 cm堰的输沙速率增加到1.66 kg/min。综上所述,得到的结果与预测结果相矛盾,挡板的使用增加了输沙速率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
THE INFLUENCE OF THE CHANNEL BED RECTANGULAR CONFIGURATION ON SEDIMENT TRANSPORTATION
Sediment transport is the movement of organic and inorganic particles caused by gravity, a moving fluid’s force, the wind, and ice motion. Sediment deposition degrades dams’ safety, leading to environmental pollution and channel area reduction. This study describes the effect of the weir height and spacing of used and non-used rectangular configuration structures on sediment transport rates in an open channel. This project was created using a rectangular open channel (30 cm wide and 60 cm deep). A sharp-crested weir was installed in the channel, and the rectangular wooden configurations were fixed in specific locations on each weir to reduce the bedload transportation rate and sediment motion. The weir heights were different (0.25B, 0.35B, 0.45B, and 0.55B, where B is the channel width). Also, the spacing between the baffle blocks (S) was set to 4Y, 8Y, 12Y, and 16Y, where Y was the maximum water depth without installing blocks and weirs. The results showed that the maximum transported bedload for the lowest weir was 1.4 kg/min, but only 4.4 × 10-3 kg/min was transported for the weir 16.5-cm high with baffle blocks. Using long baffle blocks yielded a worse result than using no blocks. The sediment-transport rate increased to 1.66 kg/min for the 7.5-cm weir due to block configurations. In conclusion, the obtained result contradicts the predicted result, as using baffle blocks increased the sediment transportation rate.
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来源期刊
Jurnal Teknologi-Sciences & Engineering
Jurnal Teknologi-Sciences & Engineering ENGINEERING, MULTIDISCIPLINARY-
CiteScore
1.30
自引率
0.00%
发文量
96
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