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山东大学学报(工学版) ›› 2011, Vol. 41 ›› Issue (6): 85-90.

• 土木工程 • 上一篇    下一篇

各向异性复杂地质体内渗流场模拟分析

梁冰,盖迪,孙维吉,赵芳芳   

  1. 辽宁工程技术大学力学与工程学院, 辽宁 阜新 123000
  • 收稿日期:2011-06-12 出版日期:2011-12-16 发布日期:2011-06-12
  • 作者简介:梁冰(1962- ),女,辽宁大洼县人, 教授,博士,主要研究方向为渗流理论及工程应用.E-mail:lbwqx@163.com
  • 基金资助:

    国家自然科学基金资助项目(50974070);国家博士点基金资助项目(20102121110003)

Simulation analysis of a seepage field in an anisotropic complex geological body

LIANG Bing, GAI Di, SUN Wei-ji, ZHAO Fang-fang   

  1. Department of Mechanics and Engineering Sciences, Liaoning Technical University, Fuxin 123000, China
  • Received:2011-06-12 Online:2011-12-16 Published:2011-06-12

摘要:

基于饱和非饱和渗流理论,针对各向异性复杂地质体内渗流场问题进行模拟分析。以阜新某矿典型的褶曲状地质结构为研究背景,应用克立格插值法对地质模型进行三维构建,并在此模型的基础上模拟分析了渗透系数主方向与整体坐标系成不同角度时,压力梯度在地质体内的变化情况。研究结果表明在90°时压力梯度最大,地质体的结构及地层的走向是决定渗流场内压力梯度等值线的走向和疏密程度的关键因素。

关键词: 渗透系数, 各向异性, 复杂地质体, 克立格, 压力梯度

Abstract:

Based on the saturated and unsaturated seepage theory, a numerical simulation on the seepage field in an anisotropic complex geological body was done. A mine which had a  typical fold shape geological structure in Fuxin was taken as research background, a three-dimensional geological model was built using the Kriging interpolation method, and then the pressure gradient changes in the geological body  were simulated and analyzed, when the principal direction of hydraulic conductivity and global coordinate system were of different angles. The results showed that the pressure gradient  reached  the maximum at 90°. The type  of geological structure and formation were  the key factors of the direction and density of the pressure gradient.

Key words: hydraulic conductivity, anisotropy, complex geological body, Kriging, pressure gradient

中图分类号: 

  • TV.138
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