地质学
岩土工程
渗透(认知心理学)
岩体分类
泥浆
流量(数学)
液压头
裂隙
机械
材料科学
复合材料
生物
物理
古生物学
神经科学
作者
Weiqiang Zhang,Haitao Zhou,Weihong Guo
标识
DOI:10.1061/(asce)he.1943-5584.0001796
摘要
Fissure seepage is the main factor that causes mine water disasters. Physical models of the fractured rock mass with various widths of fracture were designed to perform the seepage test, which demonstrated the seepage characteristics of the fractured rock mass. Furthermore, grouting tests were performed, with the network parallel electrical test conducted simultaneously, during the water and slurry seepage, respectively. The relationship between the seepage velocity and the hydraulic gradient during the seepage process was fitted to a quadratic function, in which the seepage flow resistance of the fractured water was a key factor affecting the seepage flow. The percolation velocity gradually decreased as the width of the percolation fissures increased under the relatively stable seepage pressure difference. The seepage velocity of the percolation medium was quantified by the change of the natural electric field along the path of the seepage. The change extent of the exciting current and the variation of apparent resistivity determined the location of the percolated medium and the filling effect on the space of the seepage channel.
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