Journal ArticleDOI
Modeling fracture flow with a stochastic discrete fracture network: calibration and validation: 1. The flow model
M. C. Cacas,Emmanuel Ledoux,G. de Marsily,B. Tillie,A. Barbreau,E. Durand,B. Feuga,P. Peaudecerf +7 more
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TLDR
In this paper, a large-scale investigation of fracture flow was conducted in a granite uranium mine at Fanay-Augeres, France, and four types of data were collected: (1) geometry of the fracture network; (2) local hydraulic properties measured by injection tests in boreholes; (3) global hydraulic behavior from flow rate and piezometric head distribution at a 106 m3 scale; and (4) tracer tests performed at a scale of up to 40 m.Abstract:
A large-scale investigation of fracture flow was recently conducted in a granite uranium mine at Fanay-Augeres, France. Its aim was to develop a methodology for the investigation of possible nuclear waste repository sites in crystalline environments, and thus to determine what measurements to make and what models to use in order to predict the flow and transport properties of the medium, i.e., their average behaviors and spatial variabilities at different scales. Four types of data were collected: (1) geometry of the fracture network; (2) local hydraulic properties measured by injection tests in boreholes; (3) global hydraulic behavior from flow rate and piezometric head distribution at a 106 m3 scale; and (4) tracer tests performed at a scale of up to 40 m. A stochastic fracture network model assuming negligible matrix permeability was developed and calibrated essentially on data 1 and 2 above; this was then used to predict data 3 and 4 in an attempt to validate both the parameters and the structure of the model. In this first part, only the flow problem (data 1) is discussed.read more
Citations
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Journal ArticleDOI
An efficient parallel mixed method for flow simulations in heterogeneous geological media
TL;DR: Results for parellel simulation of fluid flow in discrete-fractured media with impervious matrix using the MFE method are the first to appear in the literature.
Journal ArticleDOI
Characteristics of Block Hydraulic Conductivity of 2-D DFN System According to Block Size and Fracture Geometry
Jisu Han,Jeong-Gi Um +1 more
TL;DR: In this paper, the effect of block size and fracture geometry on hydraulic characteristics of fractured rock masses based on connected pipe flow in DFN systems was investigated using two fracture sets, and a total of 72 2-D fracture configurations were generated with different combinations of fracture size distribution and deterministic fracture density.
Journal ArticleDOI
Effect of Joint Orientation Distribution on Hydraulic Behavior of the 2-D DFN System
Jisu Han,Jeong-Gi Um +1 more
TL;DR: In this article, a program code was developed to calculate block hydraulic conductivity of the 2D DFN(discrete fracture network) system based on equivalent pipe network, and implemented to examine the effect of joint orientation distribution on the hydraulic characteristics of fractured rock masses through numerical experiments.
Book ChapterDOI
Geometry of Fracture Networks
TL;DR: In this paper, the geometrical properties of fracture networks were studied for predicting their transport properties. But the authors focused on the transport properties of the fracture networks and not on the underlying structure.
References
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Journal ArticleDOI
Porous media equivalents for networks of discontinuous fractures
TL;DR: In this article, the authors used the theory of flow through fractured rock and homogeneous anisotropic porous media to determine when a fractured rock behaves as a continuum, i.e., there is an insignificant change in the value of the equivalent permeability with a small addition or subtraction to the test volume and an equivalent tensor exists which predicts the correct flux when the direction of a constant gradient is changed.
Journal ArticleDOI
Channel model of flow through fractured media
Y. W. Tsang,Chin-Fu Tsang +1 more
TL;DR: In this paper, the authors studied the fluid flow and solute transport in a tight fractured medium in terms of flow through channels of variable aperture, characterized by an aperture density distribution and a spatial correlation length.
Journal ArticleDOI
Mass transport: 1. A stochastic analysis of macroscopic dispersion
TL;DR: In this article, the authors describe a modeling concept which accounts for macroscopic dispersion not as a large-scale diffusion process but as mixing caused by spatial heterogeneities in hydraulic conductivity.