| 离散裂隙渗流方法与裂隙化渗透介质建模 |
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| 引用本文: | 王明玉,陈劲松,等.离散裂隙渗流方法与裂隙化渗透介质建模[J].地球科学,2002,27(1):90-96. |
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| 作者姓名: | 王明玉 陈劲松 |
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| 作者单位: | [1]美国亚利桑那大学,亚利桑那州图桑市85721 [2]中国地质大学水资源与环境工程系,北京100083 |
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| 基金项目: | 国家教委优秀学者研究项目访问基金,美国亚利桑那大学博士研究生研究奖学金 |
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| 摘 要: | 流体渗流模拟的连续介质方法通常适用于多孔地质体,并不一定适用于裂隙岩体,由于裂隙分布及其特征与孔隙差异较大。若流体渗流主要受裂隙的控制,对于一定尺寸的裂隙岩体,多孔介质假设则较难刻划裂隙岩体的渗流特征。离散裂隙渗流方法不但可直接用于模拟裂隙岩体非均质性和各向异性等渗流特征,而且可用其确定所研究的裂隙岩体典型单元体及其水力传导(渗透)张量大小。主要讨论了以下问题:(1)饱和裂隙介质中一般的离散流体渗流模拟;(2)裂隙岩体中的REV(典型单元体)及其水力传导(渗透)张量的确定;(3)利用离散裂隙网络流体渗流模型研究裂隙方向几何参数对水力传导系数和REV的影响;(4)在二维和三维离散裂隙流体渗流模型中对区域大裂隙和局部小裂隙的处理方法。调查结果显示离散裂隙流体渗流数学模型可用来评价不同尺度上的裂隙岩体的水力特征,以及裂隙方向对裂隙化岩体的水力特征有着不可忽视的影响。同时,局部小裂隙、区域大裂隙应当区别对待,以便据其所起的作用及水力特征,建立裂隙化岩体相应的流体渗流模型。
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| 关 键 词: | 地下水渗流模拟 裂隙岩体 离散裂隙流体渗流方法 水力传导张量 |
| 文章编号: | 1000-2383(2002)01-0090-07 |
Groundwater (Fluid) Flow Modeling in Fractured Rocks via Discrete Fracture Fluid Flow Approach |
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| Wang Mingyu ,Chen Jingsong ,Wan Li.Groundwater (Fluid) Flow Modeling in Fractured Rocks via Discrete Fracture Fluid Flow Approach[J].Earth Science-Journal of China University of Geosciences,2002,27(1):90-96. |
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| Authors: | Wang Mingyu Chen Jingsong Wan Li |
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| Institution: | Wang Mingyu 1,Chen Jingsong 2,Wan Li 2 |
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| Abstract: | The continuum approach in fluid flow modeling can generally be applied to porous geological media, but has limited applicability for fractured rocks. With the presence of a complex fracture network pattern and the fluid flow restricted mainly to the fractures, the porous media assumption does not adequately describe the flow behavior in the fractured rocks. A discrete fracture flow model has the capability not only in capturing inhomogeneity and anisotropy, but also in estimating representative elementary volume (REV) and determining hydraulic conductivity tensor for fractured rocks. In this paper , the following sub topics were discussed: (a) general discrete fracture fluid flow modeling for saturated fractured geologic media; (b) determinations of REV and hydraulic conductivity tensor for fractured rocks using a discrete fracture network fluid flow model; (c) investigations of fracture orientation effect on the hydraulic conductivity and REV using a discrete fracture network fluid flow model, and (d) the ways to treat major fractures vs. minor fractures in the 2D and 3D discrete fracture fluid flow models. The results from this investigation indicate that a discrete fracture flow model could be used to evaluate the hydraulic properties at different scales. In addition, the orientation of fractures plays an important role in determining the hydraulic behaviors in fractured rocks. Furthermore, various conceptual fluid flow models are presented to reflect the different flow features of both minor and major fractures identified in fractured rock masses. |
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| Keywords: | groundwater flow modeling fractured rock discrete fracture fluid flow approach representative elementary volume hydraulic conductivity tensor minor fracture major fracture |
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