利用数值建模研究分支截流壁对渗流的影响

IF 1.5 Q3 MECHANICS
Alex J. Thomas, A. A. Asr
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引用次数: 0

摘要

在这项研究中,我们进行了数值建模,以扩展主要由[2]和[8]完成的有关截水墙的现有研究。这项研究的目的是检验一种独特的几何排列方式,即在 12 米深的垂直截流墙两侧设置 "分支",并研究其对大坝地基内的渗流(排放)和隆起力的后续影响。研究发现,当截水墙位于混凝土大坝的中心基座时,加入这些分支可减少渗流。随后对改变树枝角度进行的测试表明,通过土层的渗流进一步减少,最佳角度约为 60-70 度。进一步的实验表明,改变其他两个不同位置(坝脚和坝尖)的位置也能显著减少渗流,其中坝脚的位置对减少渗流最为有效。对上浮压力的评估表明,大坝跟部是上浮力最小的最佳位置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating Branched Cut-off Wall Effect on Seepage Using Numerical Modelling
In this research, numerical modelling has been conducted to expand on existing research on cut-off walls mainly done by, [2] and [8]. This study is aimed at examining a unique geometric alignment that accommodates ‘branches’ on either side of a vertical 12-metre-deep cut-off wall and investigates the subsequent effect on seepage (discharge) and uplift force within the foundation of the dam. From the study conducted it had been observed that seepage was reduced with the inclusion of these branches whilst the cut-off wall was located at the centre base of a concrete dam. Subsequent testing of altering the branches’ angle presented a further reduction in seepage through the soil strata, with the optimum angle being around the range of 60–70 degrees. Further experimentation had shown that altering the position at two other distinct locations (dam’s heel and toe) has had a significant reduction in seepage with the heel being the most effective at reducing it. Uplift pressure has been evaluated to show that the best position for minimal uplift force is at the heel of the dam.
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来源期刊
CiteScore
1.70
自引率
8.30%
发文量
0
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