Structural controls on groundwater inflow analysis of hardrock TBM

H. Zabidi, A. Rahim, M. Trisugiwo
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引用次数: 1

Abstract

Abstract Results of analyses on localized jointing system are presented to study the link of groundwater inflow and joint orientations along the 2000 m excavation of Tunnel Boring Machine (TBM-1) site, Karak in conjunction with the construction of Pahang–Selangor Raw Water Transfer Tunnel project. Geology along the tunnel route is predominantly the Main Range Granite Batholith with a lesser extent of metasedimentary rocks of the Karak Formation. Structurally, TBM-1 is dominated by joints oriented at N–S, NW–SE, and NE–SW directions. Strike slip faults that cross-cut the intrusive Main Range Granite rocks trending faults formed the most prominent structures in the vicinity of the Karak. This section of tunnel alignment consists of 2000 meters in length of Ch.8,821.77 m to Ch.10,821.77 m; 456 joints were mapped to create anisotropic conditions of rock section. Eleven significant locations experienced stoppages, thereby affecting the TBM daily progress, and such stoppages were mainly caused by sudden high-pressure groundwater inrushes or wet joint condition. Potential leakage places are identified by three main types of joints orientations. The most permeable tunnel section is in parallel with the main lineament orientation, followed by perpendicular to the tunnel drive direction, and crossing some voids that create pocket water zones.
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硬质岩石TBM地下水流入的结构控制分析
摘要介绍了局部节理系统的分析结果,以结合彭亨-雪兰莪州原水输送隧道项目的施工,研究卡拉克TBM-1隧道现场2000m开挖沿线地下水流入和节理方向的联系。隧道沿线的地质主要是Main Range花岗岩岩基,卡拉克组的变质沉积岩较少。从结构上看,TBM-1主要由N–S、NW–SE和NE–SW方向的节理组成。走滑断层横切侵入性主山脉花岗岩走向断层,在卡拉克附近形成了最突出的结构。该段隧道定线长度为2000米,Ch.8821.77 m至Ch.10821.77米;绘制了456个节理,以创建岩石剖面的各向异性条件。11个重要位置发生了停工,从而影响了TBM的日常进度,而此类停工主要是由突然高压地下水涌入或潮湿的节理条件引起的。潜在泄漏位置由三种主要类型的接头方向确定。最具渗透性的隧道段与主要线性构造方向平行,然后与隧道驱动方向垂直,并穿过一些形成袋状水层的空隙。
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Cogent Geoscience
Cogent Geoscience GEOSCIENCES, MULTIDISCIPLINARY-
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