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Seepage into Drifts in Unsaturated Fractured Rock at YUCCA Mountain.

机译：YUCCa山区非饱和裂隙岩体中的漂移渗流。

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An important issue for the long-term performance of underground nuclear waste repositories is the rate of seepage into the waste emplacement drifts. A prediction of the future seepage rate is particularly complicated for the potential repository site at Yucca Mountain, Nevada, as it is located in thick, partially saturated, fractured tuff formations. The long-term situation in the drifts several thousand years after waste emplacement will be characterized by a relative humidity level close to or equal to 100%. as the drifts will be sealed and unventilated, and the waste packages will have cooled. The underground tunnels will then act as capillary barriers for the unsaturated flow, ideally diverting water around them, if the capillary forces are stronger than gravity and viscous forces. Seepage into the drifts will only be possible if the hydraulic pressure in the rock close to the drift walls increases to positive values; i.e., the flow field becomes locally saturated. In the present work, we have developed and applied a methodology to study the potential rate of seepage into underground cavities embedded in a variably saturated, heterogeneous fractured rock formation. The fractured rock mass is represented as a stochastic continuum where the fracture permeabilities vary by several orders of magnitude. Three different realizations of random fracture permeability fields are generated, with the random permeability structure based on extensive fracture mapping, borehole video analysis, and in-situ air permeability testing. A 3-D numerical model is used to simulate the heterogeneous steady-state flow field around the drift, with the drift geometry explicitly represented within the numerical discretization grid. A variety of flow scenarios are considered assuming present-day and future climate conditions at Yucca Mountain. The numerical study is complemented by theoretical evaluations of the drift seepage problem, using stochastic perturbation theory to develop a better understanding of the key processes involved.

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作者
Birholzer, J.; Li, G.; Tsang, C.; Tsang, Y.;
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年度 1998
页码 1-5
总页数 5
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Seepage analysis; Drifts; Waste emplacement drift; Fractured rocks; Formations; Methodology; Rock (Geology); Stochastic algorithms; Numerical grid generation; Theoretical evaluations; Air permeability method; Boreholes geophysics; Porosity effects; 3-D numerical model; Geometry analysis; Yucca Mountain (Nevada); Repository sites;

机译：渗流分析;漂移;废弃物漂移;裂缝岩;地层;方法;岩石（地质）;随机算法;数值网格生成;理论评价;透气性方法;钻孔地球物理学;孔隙度效应;三维数值模型;几何分析; Yucca mountain（Nevada）;存储库网站;

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1. Modeling coupled thermal-hydrological-chemical processes in the unsaturated fractured rock of Yucca Mountain, Nevada: Heterogeneity and seepage [J] . Mukhopadhyay S, Sonnenthal EL, Spycher N Physics and Chemistry of the Earth . 2006,第10a14期

机译：内华达州尤卡山非饱和裂隙岩中热-水-化学耦合过程的模拟：非均质性和渗流
2. Modeling coupled thermal-hydrological-chemical processes in the unsaturated fractured rock of Yucca Mountain, Nevada: Heterogeneity and seepage [J] . Mukhopadhyay S, Sonnenthal EL, Spycher N Physics and chemistry of the earth . 2006,第10a14期

机译：内华达州尤卡山非饱和裂隙岩中热-水-化学耦合过程的模拟：非均质性和渗流
3. Comment on 'Seepage into drifts and tunnels in unsaturated fractured rock' by Dani Or, Markus Tuller, and Randall Fedors [J] . Stefan Finsterle Water resources research . 2006,第7期

机译：Dani Or，Markus Tuller和Randall Fedors对“不饱和裂隙岩中的隧道和隧道的渗漏”的评论
4. CHARACTERIZATION OF SPATIAL VARIABILITY OF HYDROGEOLOGIC PROPERTIES FOR UNSATURATED FLOW IN THE FRACTURED ROCKS AT YUCCA MOUNTAIN, NEVADA [C] . Quanlin Zhou, Gudmundur S. Bodvarsson, Hui-Hai Liu, International Groundwater Symposium 2002; Mar 25-28, 2002; Berkeley, California . 2002

机译：内华达州尤卡山裂隙岩石中非饱和流水文地质特征的空间变异性表征
5. Fundamental studies of micromechanics, fracturing progression, and flow properties in tuffaceous rocks for the application of nuclear waste repository in Yucca Mountain. [D] . Wang, Runqi. 1994

机译：凝灰岩中微力学，压裂进展和流动性质的基础研究，以用于丝兰山核废料库的应用。
6. Influence of particle size on non-Darcy seepage of water and sediment in fractured rock [O] . Yu Liu, Shuncai Li -1

机译：粒径对裂缝性岩石非水渗流的影响
7. Modeling coupled thermal–hydrological–chemical processes in the unsaturated fractured rock of Yucca Mountain, Nevada: Heterogeneity and seepage [O] . S. Mukhopadhyay, E.L. Sonnenthal, N. Spycher 2006

机译：内华达州丝卡山不饱和骨质岩石耦合耦合热水文化学方法：异质性和渗流

Seepage into Drifts in Unsaturated Fractured Rock at YUCCA Mountain.

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