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Volume 4 Issue 4
Dec.  2016
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XU Mo, ZHANG Qiang, KANG Xiao-bing, et al. 2016: Study on engineering-hydrogeological problems of hydroelectric project. Journal of Groundwater Science and Engineering, 4(4): 310-319.
Citation: XU Mo, ZHANG Qiang, KANG Xiao-bing, et al. 2016: Study on engineering-hydrogeological problems of hydroelectric project. Journal of Groundwater Science and Engineering, 4(4): 310-319.

Study on engineering-hydrogeological problems of hydroelectric project

  • Publish Date: 2016-12-28
  • Engineering-hydrogeological problems arise from the interaction between engineering activities and geological environment, in which rock-soil mass and groundwater are especially important constituents. However, up-to-date research on them is relatively dispersive and simple due to their complexity and lack of comprehensive and systematic study methods. Starting from geological analysis of mechanism to geological model based on geological regularities, the paper predicts the tendency of geological evolvement and puts forward proper measures to solve problems. In this paper, elevated water-sensitive structure in rock-soil mass, which mainly causes engineering hydrogeological problems, and problems in hydropower is discussed based on unique construction in Chinese Western hydropower projects. Engineering hydrogeological problems are reservoir induced earthquakes leakage from reservoir bottom in karst, stability of high slope at reservoir banks, sliding of dam foundation and dam abutment, and confined water at key positions which are introduced and determined by using water-sensitive factors (or structure) according to special hydrogeological conditions.
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  • ZANG Shao-xian. 1983. The effect of infiltrating of water and mechanism and characteristics of earthquakes in Xinfengjiang reservoir. Seismology And Geology, 5(2): 59-69 .
    SUN Yu-ke. 1995. The large engineering projects and their engineering geological problems in China in 21st Century. Journal of Engineering Geology, 3(4): 1-11 .
    Talwani P, Acree S. 1984, Pore pressure diffusion and the mechanism of reservoir-induced seismicity. Pure and Applied Geophysics, 122(6): 947-965 .
    Rice J R, Cleary M P. 1976. Some basic stress diffusion solutions for fluid-saturated elastic porous media with compressible constituents. Reviews of Geophysics, 14(2): 227-241 .
    WANG Shi-tian, LIU Han-chao, et al. 1997. Research on the water-rock interaction and its environmental effects in reservoir areas. Journal of Geological Hazards and Environment Preservation, 8(1): 69-89 .
    XU Mo, WEI Yu-hu. 2006. Simulation of groundwater flow in the side slopes of a section of the Three Gorges Reservoir, Fengjie, China. Nottingham: 10th International Congress of the International Association for Engineering Geology and the Environment .
    ZHANG Xian-gong. 1993. The Action of groundwater on the engineering project and their environments. Journal of Engineering Geology, 1(1):1-6 .
    XIA Qi-fa. 1992. The basic parameters of the reservoir induced earthquake and reservoir induced earthquake review summary. Chinese Journal of Geological Hazard and Control, 3(4): 95-100 .
    XU Mo, WANG Shi-tian, HUANG Run-qiu. 2002. A simulation of bedding pore-water pressure diffusion in Tongjiezi Reservoir. Durban: 9th International Congress of the International Association for Engineering Geology and the Environment, 2176-2183 .
    ZHANG Yuan-xin, ZHOU Chuang-bing. 1994. The dynamic characteristics of the dam water level of confined water in the river. Hydrogeological and Engineering Geology, (2): 23-26 .
    ZHU Jian-ye, MEN Guang-yong, ZHANG Xing-yi. 1995. Suggestions on hydropower engineering geological science and technology research project in 1990s. Journal of Hydroelectric Power, (3): 1-13 .
    ZHANG Zhuo-yuan, WANG Shi-tian, et al. 1994. Analytical theory of the engineering geology (the second edition). Beijing: Geological Publishing House, 1-4 .
    Bell M L, Nur A. 1978. Strength changes due to reservoir–induced pore pressure and stresses and application to Lake Oroville. Journal of Geophysical Research: Solid Earth, 83(B9): 4469-4483 .
    CHEN Meng-xiong. 1993. Evolution and development of hydrogeology in the contemporary age. Hydrogeology and Engineering Geology, (3): 1-3 .
    WANG Fa-xi. 1989. The handle of embankment foundation holded water and the real datum analysis in the hydropower station of Tianqiao. Hydrogeology and Engineering Geology, (1): 44-47 .
    ZHOU Cheng-jie. 1994. Karst engineering geology of water conservancy and hydropower engineering. Beijing: Water Conservancy and Electric Power Press .
    XU Mo, WANG Shi-tian, FANG Xue-dong. 2002. Study on geological factors controlling confined water's formation at key position of Guandi hydropower station. Journal of Geological Hazards and Environment Preservation, 13(1): 65-68 .
    WANG Sijing, MA Feng-shan, DU Yong-lian. 1996. On the rock-water interaction in reservoir areas and its geo-environmental effect. Journal of Engineering Geology, 4(3):1-9 .
    XU Mo, WANG Shi-tian. 2003. A brief of engineering-hydrogeology and its application to hydroelectric power project. Journal of Engineering Geology, 11(4): 396-401 .
    XU Mo, WANG Shi-tian, HU Jin. 2004. Study on geological controlling factors of confined water’s formation at key position of guandi hydroelectric power. Hong Kong: 4th Asian Symposium on Engineering Geology and the Environment, 67-70 .
    WANG Si-jing. 1997. Interaction between human engineering activity and geo-environment and its environmental effects. Journal of Geological Hazards and Environment Preservation, 8(1): 19-26 .
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