复杂滑坡体地下水分层观测技术与应用

孙云志; 苏爱军

复杂滑坡体地下水分层观测技术与应用

孙云志^1,,
苏爱军¹

1.
中国地质大学工程学院, 湖北武汉 430074
2.
水利部长江勘测技术研究所, 湖北武汉 430074

详细信息

作者简介:
孙云志(1964 -), 男, 高级工程师, 1987年毕业于中国地质大学工程学院, 现正攻读中国地质大学工程学院地质工程专业博士学位, 主要研究方向为工程岩土体稳定性、地质灾害预测与防治.电话: 027 -82820143.E-mail: sunyunzhi831@sohu.com

中图分类号: P641.2;P642.22
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出版历程
- 收稿日期: 2004-07-12
- 刊出日期: 2005-03-25

De-layer Observation Technique and Application in Complex Landslides

SUN Yun-zhi^1
,,
SU Ai-jun¹

1.
Faculty of Engineering, China University of Geosciences, Wuhan 430074, China
2.
The Yangtze Research Institute of Geo-technique and Survey, Changjiang Water Resources Commission, Wuhan 430011, China

摘要

摘要: 滑坡勘测与防治工程实践证明, 地下水是滑坡体稳定性分析的敏感因子.因此, 获取滑坡体地下水位是滑坡勘测的重要目的之一.由于滑坡体组成物质的多样性与透水性差异, 滑坡体存在不同类型的地下水, 即多层地下水位.钻孔终孔水位所代表的是滑坡体综合水位, 不能区分滑坡体中存在的多层地下水位.应用地下水分层观测技术可以解决上述问题.系统地介绍了滑坡体地下水分层观测技术, 并以三峡工程库区和平广场、黄腊石滑坡为例, 分析了地下水分层观测成果对滑坡防治工程的意义.
- 复杂滑坡体 /
- 地下水 /
- 分层观测技术
Abstract: Landslide surveys and preventative analysis have shown that underground water is a sensitivity factor of landslide stability analysis. Therefore, it is important to obtain the underground water level at the site of a landslide. There are different types of underground water levels which this paper refers to as the de-layer underground water level in landslides, due to multiple substance composition and diverse permeability. The water level of a terminal borehole is synthesis level for borehole, and cannot distinguish multi-underground water levels by itself. The de-layer technique of underground water observation could solve the above problems. This paper introduces the systematic de-layer technique of underground water observation and analyzes the results and significance for landslide prevention using the examples of the Heping square landslide and the Huanglashi landslide in the reservoir region of the Three Gorges Project.
- complex landslide /
- underground water /
- de-layer observation technique

HTML全文

图 1 复杂滑坡体地下水概念模型(以三峡库区黄腊石滑坡为例)

1.局部隔水层; 2.滑带; 3.地下水位线; 4.钻孔及编号; 5.钻孔水位; 6.泉水点

Fig. 1. Underground water conception model of complexity landslide

下载: 全尺寸图片幻灯片

图 2 分层观测管结构

Φ₁.内层观测管直径32 mm; Φ₂.外层观测管直径91 mm; Φ₃.钻孔孔径110 mm

Fig. 2. Structure of de-layer observation pipe

下载: 全尺寸图片幻灯片

表 1 和平广场滑坡体透水性注水试验成果

Table 1. Injection test results of permeability of Heping square landslide

表 2 黄腊石滑坡体透水性注水试验成果

Table 2. Injection test results of permeability of Huanglashi landslide

表 3 黄腊石滑坡体地下水分层观测成果

Table 3. De-layer observation result of underground water of Huanglashi landslide

参考文献(6)

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Chen, G.J., Zhang, L., Zhao, D.J., 1997. Water isostasy and analysis of underground water system for Huanglashi landslide. The Chinese Journal of Geological Hazard and Control, 8(3): 27 -34(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-ZGDH703.004.htm
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陈崇希, 成建梅, 1998. 关于滑坡防治中排水模式的思考——以长江三峡黄腊石滑坡为例. 地球科学——中国地质大学学报, 23(6): 628 -630. https://www.cnki.com.cn/Article/CJFDTOTAL-DQKX806.016.htm
陈国金, 张陵, 赵德君, 1997. 黄腊石滑坡水均衡与地下水系统分析. 中国地质灾害与防治学报, 8(3): 27 -34. https://www.cnki.com.cn/Article/CJFDTOTAL-ZGDH703.004.htm
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