平原河网地区全库盆土工膜防渗水库膜下排水减压分析

Analysis of sub-membrane drainage and pressure reduction in full-reservoir geomembrane systems in plain river network areas

  • 摘要: 平原河网地区地下水与河道联系紧密,在地质条件较差或有隔污等要求时建库,常采用全库盆土工膜防渗方案。为了满足土工膜抗浮稳定及防止气胀等问题,通过膜下布设排水管网进行排水减压。依托某引调水工程全库盆土工膜防渗平原水库,采用多孔介质渗流和管道流耦合的地下水流模拟方法,模拟复杂排水管网和库区岩土体共同作用的复合渗流场。通过对比不同排水方案、土层渗透性能等条件下的渗透压力分布表明,正交管网闭合小区内膜下渗透压力从小区中心向四周排水管逐渐降低,闭合小区内减压效果明显,坝脚位置膜下渗透压力明显高于库内区域,需增设坝脚排水管。淤泥质粉细砂层渗透性对膜下渗透压力影响较大,水库低水位运行期间应加强对膜下渗透压力的监测。研究结果可为平原河网地区全库盆土工膜防渗水库工程的渗控设计和安全运行提供参考。

     

    Abstract: In plain river network areas, there is a close connection between groundwater and river channels. When constructing reservoirs in areas with poor geological conditions or where pollution isolation is required, a full-reservoir geomembrane anti-seepage scheme is often used. To ensure the geomembrane's buoyancy stability and prevent air inflation issues, a drainage network is installed under the membrane for drainage and pressure reduction. Relying on a full-reservoir geomembrane anti-seepage plain reservoir in a water diversion project, a groundwater flow simulation method that couples porous media seepage and pipeline flow was adopted to simulate the composite seepage field involving the interaction between the complex drainage network and the reservoir's geotechnical body. By comparing the seepage pressure distribution under different drainage schemes and soil permeability conditions, it is shown that within the closed areas of the orthogonal drainage network, the sub-membrane seepage pressure gradually decreases from the center of the area to the surrounding drainage pipes, indicating significant pressure reduction within the closed areas. The sub-membrane seepage pressure at the dam foot is significantly higher than within the reservoir area, necessitating the addition of drainage pipes at the dam foot. The permeability of the silty fine sand layer greatly affects the sub-membrane seepage pressure, and the sub-membrane seepage pressure should be closely monitored during low water level operations. The study results can provide a reference for the seepage control design and safe operation of full-reservoir geomembrane anti-seepage reservoirs in plain river network areas.

     

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