Your search keyword '"fractured medium"' showing total 41 results

1. Hydro-Mechanical Modelling of Multiphase Flow in Coalbed by Computational Homogenization

Author

Bertrand, François, Buzzi, Olivier, Collin, Frédéric, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Barla, Marco, editor, Di Donna, Alice, editor, and Sterpi, Donatella, editor

Published

2021

2. Different Approaches for Solving Inverse Seismic Problems in Fractured Media

Author

Golubev, Vasily I., Muratov, Maxim V., Petrov, Igor B., Howlett, Robert J., Series Editor, Jain, Lakhmi C., Series Editor, Favorskaya, Margarita N., editor, Nikitin, Ilia S., editor, and Reviznikov, Dmitry L., editor

Published

2020

3. Liquid Breakthrough Time in an Unsaturated Fracture Network.

Author

Zhou, Zexiong, Yang, Zhibing, Xue, Song, Hu, Ran, and Chen, Yi‐Feng

Subjects

LIQUIDS, STEADY-state flow, FRACTURING fluids, FRACTURE healing

Abstract

We present an experimental and theoretical study of unsaturated flow in discrete fracture networks. The focus is on the breakthrough time of infiltrating liquid through the fracture networks as well as the spatial distribution of local flow status under a wide range of flow rates. Through visualized experiments, the fluid motion in the fracture network is recorded and analyzed, and gravity‐driven preferential pathways are observed. The location of the breakthrough path is found to be insensitive to the flow rate under the single‐inlet flow condition. Based on analogy with slug migration in a single fracture and considering liquid accumulation due to the capillary barrier effect at the fracture intersections, we propose a theoretical model of liquid breakthrough time through an initially dry fracture network. The theoretical predictions are found to be in excellent agreement with the experimental results. Using the model, we analyze the relative contribution of times needed for liquid migration and for local liquid accumulation to the breakthrough time. We also find that the spatial distribution of local flow status at the steady‐state varies significantly with the flow rate. The improved understanding and the proposed model are of significance for predicting the time required for a fluid/contaminant to reach a certain depth in unsaturated fractured media, and may provide new physical insights on the complex unsaturated flow dynamics. Key Points: We propose a theoretical expression of liquid breakthrough time through an unsaturated fracture networkModel predictions are in excellent agreement with results from carefully controlled visualized experiments of unsaturated flowRelative contribution of times for slug migration and local liquid accumulation to the breakthrough time is analyzed [ABSTRACT FROM AUTHOR]

Published

2022

4. Study on the existence of tracking model for a d-dimensional random walk transportation radionuclide particle in a fractured medium.

Author

El-Hadidy, Mohamed Abd Allah

Subjects

*RANDOM walks, *POISONS, *RANDOM variables, *RADIOISOTOPES, *CHEMICAL properties, *DISTRIBUTION (Probability theory)

Abstract

This paper presents a novel tracking model to detect a d -dimensional random walk radionuclides and toxic chemicals in a fractured medium with minimum time and maximum probability. This model improves the physical and chemical properties of a fractured medium for a long time. It depends on a coordinated search technique with multiple sensors. The radionuclide particle has a linear flows on one direction from d -directions to spread. We consider this particle dispersed through a cylinder path in a very small time. The tracking or searching process in each cylinder path will be done by two sensors which start from any point in the fractured medium (space). The particle's initial position is a vector of random variables with a known probability distribution. More than presenting the analytical solution which shows the existence of a finite tracking technique, we derive some auxiliary results related to optimal tracking technique. Besides that, we derive this optimal tracking technique which minimizes the expected value of the first meeting time between one of the sensors and the radionuclide or the toxic chemical particle. The effectiveness of this model appears in some numerical results. [ABSTRACT FROM AUTHOR]

Published

2022

5. Reflection coefficients of P‐waves in partially saturated fractured media.

Author

Wang, Kang, Peng, Suping, Lu, Yongxu, and Cui, Xiaoqin

Subjects

*REFLECTANCE, *AMPLITUDE variation with offset analysis, *ATTENUATION of seismic waves, *SEISMIC waves, *RESERVOIRS, *PORE fluids, *YIELD strength (Engineering)

Abstract

Wave‐induced fluid flow, an important mechanism in seismic wave attenuation, is considered in the amplitude variation with the offset technique. In a fractured marine carbonate reservoir, fractures and pores develop simultaneously, such that wave‐induced flow is an important mechanism in attenuation caused by the fluid flow between pores as well as between pores and fractures. However, these two types of attenuation are typically investigated separately or studies assume that the pores and fractures are dry or saturated by the same fluid. Rock pores are usually saturated by a mixture of two or more fluids, such that the fracture and pore filling fluids may be different. During variation with offset reservoir prediction and fluid identification, the influence that the porosity, fracture, and fluid have on the P‐wave reflection coefficient should be considered. The patchy saturation model can describe the seismic wave dissipation caused by the wave‐induced flow between pore fluids, whereas the Norris model can describe seismic wave dissipation caused by the fluid flow between fractures and pores. This study considers both the patchy saturation model and Norris model to calculate the amplitude variation with the offset P‐wave reflection coefficient under different conditions. Combining the saturation and Norris models forms a new model, which is regarded as a transversely isotropic medium with a vertical symmetric axis, and can be extended to any incident angle through the relaxation function and the high‐ and low‐frequency elastic limits of the stiffness tensor, where the complete effective stiffness tensor of the new model can be obtained. Finally, the amplitude variation with offset reservoir technology is used to determine the influence of model parameters on the reflection coefficient of P‐waves under different angles and frequencies, including fracture weakness, fluid saturation and pore fluid saturation. [ABSTRACT FROM AUTHOR]

Published

2021

6. Geological Fractures and Geophysical Assumptions

Author

Cui, Xiaoqin, Lines, Laurence, Krebes, Edward Stephen, Peng, Suping, Cui, Xiaoqin, Lines, Laurence, Krebes, Edward Stephen, and Peng, Suping

Published

2018

7. Hybrid Fracture Model

Author

Yao, Jun, Huang, Zhao-Qin, Yao, Jun, and Huang, Zhao-Qin

Published

2017

8. Problem of Acoustic Diagnostics of a Damaged Zone.

Author

Petrov, I. B., Golubev, V. I., and Shevchenko, A. V.

Subjects

*POROUS materials, *THEORY of wave motion, *ZONING, *SEISMIC waves, *ALGORITHMS, *SEISMIC surveys

Abstract

The problem of seismic wave propagation from a source located in a well is considered. Acoustic equations are used to describe the dynamic behavior of the fluid. The damaged zone is described as a porous fluid-saturated medium by applying the Dorovsky model. The elastic approximation is used to describe the dynamic behavior of the surrounding rock. A unified algorithm based on the grid-characteristic approach with curvilinear grids is proposed for full-wave modeling in the entire computational domain. Its distinctive feature is that the necessary contact conditions on the boundary between media with different rheological properties are stated explicitly. The possibility of acoustic diagnostics of the heterogeneity of the damaged zone is numerically explored. [ABSTRACT FROM AUTHOR]

Published

2020

9. Elastic waves in fractured rocks under periodic compression

Author

Elena L. Kossovich, Alexey V. Talonov, and Viktoria L. Savatorova

Subjects

Fractured medium, Acoustic wave speed, Effective elastic properties, Homogenization, Periodically distributed loading, Compression, Materials of engineering and construction. Mechanics of materials, TA401-492, Mechanical engineering and machinery, TJ1-1570

Abstract

Abstract Background One of the current problems in studying the mechanical properties and behavior of structurally inhomogeneous media with cracks is the characterization of acoustic wave propagation. This is especially important in Geomechanics and prognosis of earthquakes. Methods In this work, the authors propose an approach that could simplify characterization of wave propagation in medium with cracks. It is based on homogenization procedure performed at a set of equations characterizing acoustic wave propagation in media weakened by fractures under condition of external distributed loading. Such kind of loading in most cases is close to the real one in case of consideration of Geomechanics problems. Results On the basis of the proposed homogenization technique, we performed characterization of elastic properties and plane acoustic waves propagation in a pre-loaded linear elastic medium weakened by a large amount of cracks. We have investigated two special cases of loading: uniaxial compression and complex compression. We have also studied how the wavespeeds depend on averaged concentration and distribution of craks. Conclusions Effective elastic properties were theoretically characterized for fractured media under external loading. The results revealed high dependency of the longitudinal wave propagation speed on the relation between stresses reasoned by an external loading.

Published

2017

10. Characterizing groundwater flow in a translational rock landslide of southwestern China.

Author

Lv, Hongbin, Ling, Chengpeng, Hu, Bill X., Ran, Jiaxin, Zheng, Yanan, Xu, Qiang, and Tong, Juxiu

Subjects

*GROUNDWATER flow, *LANDSLIDES, *HYDROGEOLOGY

Abstract

Characterizing the groundwater flow pattern in a landslide would help to establish a monitor-warning system to predict the movement of a highly concealed and extremely hazard translational landslide. The complex fracture network in this type of landslide affects the rainfall infiltration process and the groundwater flow. In this paper, multi-tracer tests, injection tests and electrical resistivity tomography were used to investigate the hydrogeological characteristics and groundwater dynamics of the Kualiangzi translational rock landslide, which is located in the northeast of the Sichuan Basin, China. The study results indicate that there are two kinds of groundwater flow mode, in the landslide, the concentrated mode and the dispersed mode. Tracer and injection test results indicate that the groundwater flow in the landslide is mainly controlled by a vertical preferential flow pathway (concentrated mode), of which the direction is approximately perpendicular to the sliding direction of the landslide. The main runoff direction in the middle of this landslide is southwest according to electrical resistivity tomography. The hydraulic conductivity in the preferential direction is more than 3750 times larger than that perpendicular to the direction. The groundwater flow along the weathered sandstone and mudstone media in the vicinity of the slip surface is very slow (dispersed mode). The results reveal the existence of a preferential flow pathway. The hydrogeological conceptual model is considered as an unbounded domain with an anisotropic medium in the whole area. This hydrogeological model clearly describes the hydrological conditions, and can help establish a monitor-warning system in a translational landslide. [ABSTRACT FROM AUTHOR]

Published

2019

11. Impact of different injection sites on the water and oil exchange in a fractured porous medium for different polymers: A visual study.

Author

Ahmadi, Pouyan, Shahsavani, Behnam, Malayeri, Mohammad Reza, and Riazi, Masoud

Subjects

*HYDRAULIC fracturing, *POLYMERS, *INJECTION wells, *VISCOSITY, *ENHANCED oil recovery

Abstract

Abstract This study aimed at investigating the impact of injection sites including i) matrix and ii) fracture when polymers of PVA, PAM, and CMC are injected at different concentrations within a fractured medium. The experimental results showed that PAM for all concentrations had a high recovery factor (RF) when its injection site is matrix and also at low concentrations. PAM has performed better due to its higher viscosity as well as its high capillary pressure in water-wet condition. In different pore sizes, the amount of shear rate that will be applied to the polymers will vary, which is why in the case of PAM injection in the fracture, the tendency of polymer to penetrate through the grains is more than fracture. CMC at low concentrations of 100 and 1000 ppm cannot wash the oil effectively. However, for a concentration of 5000 ppm, it has maximum breakthrough time as well as the maximum RF of 96% and 83% when it is injected via the matrix and fracture, respectively. These efficiencies are approximately 15% and 10% higher than that of PAM although PAM is more viscous of nearly three-fold. PVA can ultimately sweep 12% of the OOIP when its 5000-ppm solution is injected from the matrix. Graphical abstract Image 1 Highlights • Impact of shear rate on polymer invasion through grains instead of fracture. • Superiority of CMC than PAM in terms of recovery factor at high concentrations. • Breakthrough time postponement when grains are considered for polymer injection. • Weak performance of PVA compared to that of PAM and CMC. [ABSTRACT FROM AUTHOR]

Published

2019

12. Distinguishing Groundwater Flow Paths in Fractured Rock Aquifers Formed Under Tectonic Stress Using Geophysical Techniques: Cankurtaran Basin, Denizli, Turkey

Author

Ali Aydin, Suat Taşdelen, Mohamed Salem Oudeika, and Elif Meriç İlkimen

Subjects

Turkey, Groundwater flow, GPR, Aquifer, tomography, 010501 environmental sciences, Structural basin, Fault (geology), 01 natural sciences, fractured medium, Denizli Basin, groundwater, Spring (hydrology), Electrical resistivity tomography, 0105 earth and related environmental sciences, General Environmental Science, geography, aquifer, geography.geographical_feature_category, electromagnetic method, Geophysics, Electromagnetic, Water table, Ground-penetrating radar, groundwater flow, ground penetrating radar, Groundwater, Geology, electrical resistivity

Abstract

Gökpınar spring is one of the most important drinking water resources of Denizli city (Turkey), covering more than one third of the water need of the municipality. In this paper, we present a combination of geophysical methods in order to define the groundwater flow paths in Gökpınar spring region. The spring of Gökpınar is a result of the Fault-fracture network formed during the tectonic events which took place in the study area. This fault and fracture system present in the Gökpınar spring zone are characterized by the Cankurtaran fault in the east and Babadağ fault in the south. To highlight the main directions of the groundwater flows feeding Gökpınar spring, an electrical resistivity tomography (ERT) survey was carried out in the study area. The results obtained from this survey have been confirmed by a frequency domain electromagnetic (FEM) survey carried out along four profiles in addition to four ground penetrating radar profiles (GPR) profiles. The comparison of the two auxiliary methods with the ERT profiles allowed a better understanding of the groundwater movements. The ERT data was collected along six profiles corresponding to Wenner–Schlumberger array and located predominantly in the southern and eastern parts of the spring surrounding area. In order to confirm the hypothesis from the interpretation of the ERT profiles, two simplified different scenarios were numerically and experimentally considered. The results of the combined methods have ultimately led to define the main direction of groundwater flows feeding the Gökpınar spring, which is related to four factors: The Fault-Fracture network, karstic features, the topography, and deep groundwater. © 2020, University of Tehran.

Published

2020

13. An Experimental Investigation of Fracture Physical Properties on Heavy Oil Displacement Efficiency during Solvent Flooding.

Author

Farzaneh, S. A., Dehghan, A. A., Kharrat, R., and Ghazanfari, M. H.

Subjects

*HEAVY oil, *MATHEMATICAL models, *PETROLEUM, *SOLVENTS, *SIMULATION methods & models

Abstract

This work is concerned with the role of geometrical properties of fractures on oil displacement efficiency during solvent injection to heavy oil. Here, a series of solvent injection processes were conducted on one-quarter five-spot fractured micromodels that were initially saturated with the heavy oil, at a fixed flow rate condition. The oil recovery was measured using image analysis of the continuously provided pictures. The results show that for the range of experiments performed here, the maximum oil recovery happens at a fracture orientation angle of 45 degrees. Also, increasing the number of fractures leads to a higher oil recovery factor by solvent in 45 degrees, while it does not change significantly for the case of a 90-degree inclination. By increasing the fracture spacing, the oil recovery factor decreased. When fractures are distributed along the mean flow direction, oil recovery is higher than the case where the fractures are more dispersed and are not in the mean flow direction. In the presence of discontinuous fractures, the oil recovery factor decreases in comparison with the case of continuous fractures. The results of this work might be helpful for better understanding the role of fractures during miscible injection processes, which might be used to develop new mathematical models in such a reservoir. [ABSTRACT FROM AUTHOR]

Published

2011

14. Semi-stochastic generator (FraGMA) of 2D fractured media by mechanistic analogy – Application to reactive transport in a fractured package of vitrified nuclear waste

Author

Crevoisier, David, Bouyer, Frédéric, and Gin, Stéphane

Subjects

*RADIOACTIVE waste vitrification, *STORAGE, *FRACTURE mechanics, *GLASS, *COMPUTER software, *SURFACES (Technology), *GEOMETRY, *GEOLOGICAL cross sections

Abstract

Abstract: In a geological storage context, the durability of nuclear glass is first and foremost determined by its alteration rate and by the surface being leached. This surface is comprised of a network of three-dimensional cracks due to the stress relief generated by the cooling of glass packages. In order to improve the methods employed so far for quantifying the impact of a fissure network on the life time of glass packages in geological disposal, we have developed a software, referred to as FraGMA, which can be used to generate a realistic 2D geometry of the fissure network inside the glass based on mechanistic analogies. This type of tool is required for providing a mesh adapted to the calculation codes simulating water flow and glass alteration in such a medium. The main principles of this tool have been developed and its parameters have been defined based on the analysis of theoretical fracture processes and observations of real fissure networks. The 2D networks developed using FraGMA are compared with cross-sections of real networks. It is outlined that the general structure of the fracture maps is correctly reproduced, compared to the observations; consequently, it is relevant to apply the tool for further studies in order to generate more complex crack networks, and to study the channeling in such structures, as expected by the strong organized pattern of the experimental fracture maps. [ABSTRACT FROM AUTHOR]

Published

2011

15. Analytical and Experimental Study to Predict the Residual Resistance Factor on Polymer Flooding Process in Fractured Medium.

Author

Ramazani S. A., Ahmad, Nourani, Meysam, Emadi, Mohammad, and Esfad, Narges

Subjects

PERMEABILITY, POROUS materials, WATER-soluble polymers, OIL field flooding, POLYACRYLAMIDE, VISCOSITY, MOLECULAR weights, DIMENSIONLESS numbers, FRACTURE mechanics, FLUID dynamics

Abstract

The major objectives of this study are to analytically and experimentally determine the residual resistance factor in the fractured medium based on the polymer solution properties and operational conditions. The parameters considered in this study are the polymer concentration, power law constitutive equation parameter, and salt concentration, sulfonation content of polymer, temperature, and molecular weight of the water soluble polymers which are used in polymer flooding for enhanced oil recovery. The results indicated that residual resistance factor in fractured medium is dependent on the coil overlap parameter and power law equation parameter of polymer. The coil overlap parameter is a dimensionless number consists of intrinsic viscosity and polymer concentration. Since intrinsic viscosity is a function of polymer diameter in medium conditions, to predict the residual resistance factor in fracture medium, an experimental correlation is generated for determination of the molecular diameter of polymer based on polymer molecular weight, temperature, salt concentration, and sulfonation content. [ABSTRACT FROM AUTHOR]

Published

2010

16. Terrain Discontinuity Effects in the Regional Flow of a Complex Karstified Aquifer.

Author

Papadopoulou, Maria P., Varouchakis, Emmanouil A., and Karatzas, George P.

Subjects

AQUIFERS, CHANNELS (Hydraulic engineering), SUBSURFACE drainage, DARCY'S law, SIMULATION methods & models, RAINFALL

Abstract

Karst aquifers are characterized by spatial heterogeneity due to the presence of highly permeable channels and conduits in low-permeable fractured rocks (matrix block). Recent studies have reported a close relationship between surface and subsurface water in karstic regions due to the water flow through a complicated network of paths formed by fracture intersections. Subsurface flow in karstified aquifers ranges between conduit flow, in large passages with relatively high flow velocities, and diffuse flow, in the matrix block where Darcy’s law is still valid. In this paper, we present the simulation of a complex karstified aquifer system in Crete, Greece, where the presence of main faults drastically affects the regional flow. A discrete fracture approach in conjunction with an equivalent porous medium approach was adopted to simulate the mixed flow in the area of interest. The simulation results have shown that the length and the orientation of the dominant faults, primarily during the rainy season, affect the flow field. [ABSTRACT FROM AUTHOR]

Published

2010

17. Characterization of Tracer Transport in Heterogeneous Fractured Reservoir by a Streamline Approach on Unstructured Grids.

Author

Park, C. and Kang, J. M.

Subjects

*NUMERICAL grid generation (Numerical analysis), *NUMERICAL analysis, *POROUS materials, *RESERVOIRS, *GROUNDWATER tracers, *PERMEABILITY, *MATRICES (Mathematics), *PRESSURE, *HYDRAULIC structures

Abstract

This article presents a numerical analysis on anomalous transport behavior in a heterogeneous fractured porous reservoir using streamlines. The authors developed a streamline simulator with a direct quadrilateral mesh generator to investigate the correlated effects of hydrological properties. Quadrilateral grids were made by constructing boundary loops automatically. The mesh generator showed reliable shapes and did not need to construct another control volume for a conventional transport model. Solute was transported using a streamline approach on the irregular grids with various values of permeabilities between matrix and fracture. Breakthrough curve has a skewed characteristic similar at a real heterogeneous medium. The trajectories of streamline, the distribution of pressure, and the skewed breakthrough confirm the applicability of our model at both porous and fractured medium. [ABSTRACT FROM AUTHOR]

Published

2008

18. Scattering of a longitudinal wave by a circular crack in a fluid-saturated porous medium

Author

Galvin, R.J. and Gurevich, B.

Subjects

*POROUS materials, *FUNCTIONAL equations, *INTEGRAL equations, *SCATTERING (Physics)

Abstract

Abstract: Physical properties of many natural and man-made materials can be modelled using the concept of poroelasticity. Some porous materials, in addition to the network of pores, contain larger inhomogeneities such as inclusions, cavities, fractures or cracks. A common method of detecting such inhomogeneities is based on the use of elastic wave scattering. We consider interaction of a normally incident time-harmonic longitudinal plane wave with a circular crack imbedded in a porous medium governed by Biot’s equations of dynamic poroelasticity. The problem is formulated in cylindrical co-ordinates as a system of dual integral equations for the Hankel transform of the wave field, which is then reduced to a single Fredholm integral equation of the second kind. It is found that the scattering that takes place is predominantly due to wave induced fluid flow between the pores and the crack. The scattering magnitude depends on the size of the crack relative to the slow wave wavelength and has it’s maximum value when they are of the same order. [Copyright &y& Elsevier]

Published

2007

19. A NEW APPROACH TO SIMULATING FLOW IN DISCRETE FRACTURE NETWORKS WITH AN OPTIMIZED MESH.

Author

Mustapha, Hussein and Mustapha, Kassem

Subjects

*SURFACE fault ruptures, *MATHEMATICAL models, *SIMULATION methods & models, *GEOLOGICAL modeling, *GEOPHYSICS, *FLUID mechanics

Abstract

Natural fractured media are highly unpredictable because of existing complex structures at the fracture and at the network levels. Fractures are by themselves heterogeneous objects of broadly distributed sizes, shapes, and orientations that are interconnected in large correlated networks. With little field data and evidence, numerical modeling can provide important information on the underground hydraulic phenomena. However, it must overcome several barriers. First, the complex network structure produces a structure difficult to mesh. Second, the absence of a priori homogenization scale, along with the double fracture and network heterogeneity levels, requires the calculation of large but finely resolved fracture networks resulting in very large simulation domains. To tackle these two related issues, we reduce the highly complex geometry of the fractures by applying a local transformation that suppresses the cumbersome meshing configurations while keeping the networks fundamental, geological, and geometrical characteristics. We show that the flow properties are marginally affected while the problem complexity (i.e., memory capacity and resolution time) can be divided by orders of magnitude. The goal of this article is to propose a method of resolution which takes into account the geometrical complexity met in the networks and which makes it possible to treat a few thousand fractures. The principal aim of this article is to present a tool to slowly modify the structures of the fracture networks to have a good quality mesh with a marginal loss in precision. [ABSTRACT FROM AUTHOR]

Published

2007

20. Numerical Analysis of Diffusion in Discrete Fracture Networks with Fractal Geometry by Using Pressure Transient Data.

Author

Changhyup Park, Kang, Joe M., Ilsik Jang, and Jonggeun Choe

Subjects

*FRACTALS, *NUMERICAL analysis, *DIFFUSION, *FRACTURE mechanics, *PRESSURE, *DIMENSION theory (Topology), *GEOMETRY, *TOPOLOGY, *PHYSICS

Abstract

This article presents numerical analyses on diffusion trend for the fractured media with fractal properties by pressure transient data. The authors develop a discrete fracture model with random fracture pattern and a power-law length distribution, which has not been fully considered in the previous fractal modeling. From the model presented, the fractal dimension and conductivity index is determined, and the pressure behavior is analyzed for the range of length exponent ( a ) of power-law from 1 and 3. Various fractal geometries are examined depending on the morphology of fractures. A single fractal characteristic is observed in the media dominated by long ( a 3), and two distinct fractal dimensions in pertinently mixed system of long and small fractures (2 < a < 3). Also, pressure transient behaviors in the mixed system show their unique characteristics, corresponding to each fractal dimension respectively. It is shown that diffusion effect is relatively small in the early time influenced by a few long fractures, and becomes larger in the late time by long and small fractures. [ABSTRACT FROM AUTHOR]

Published

2006

21. Stochastic analysis of contaminant transport through nonstationary fractured porous media: A dual-permeability approach.

Author

Xu, Jie and Hu, Bill X.

Abstract

A Eulerian moment expansion through the first order of σ p2( p = f, m) (σ p2 is the velocity variance in the fracture, p = f, or matrix, p = m, domain) is developed for solute transport in a nonstationary, fractured medium. A dual-permeability model is applied to describe the conceptualized fractured medium where solute convection and dispersion in both the fracture and matrix domains are considered. Hydraulic conductivity distrbutions in both fracture and matrix domains are nonstationary. The stochastic governing equations for the mean concentration and concentration covariance are analytically derived. A numerical method (a finite difference method) is applied to obtain the solutions. The developed method is applied to study solute transport in stationary and nonstationary fractured media. The study results indicate that medium nonstationarity significantly influences the solute transport process. The nonstationary transport theory relaxes many assumptions adopted in stationary theories and paves the way for applying the theory to many environmental projects, especially for uncertainty analysis of solute transport. [ABSTRACT FROM AUTHOR]

Published

2005

22. Pressure drawdown well tests in fractured porous media.

Author

Bogdanov, I. I., Mourzenko, V. V., Thovert, J.-F., and Adler, P. M.

Abstract

A general three-dimensional numerical model for single-phase, slightly compressible flow through fractured porous media is introduced. It is based on a discrete fracture representation. Applications to the simulation of pressure drawdown well tests are presented, for complex situations where the well intercepts a random fracture network with various fracture densities and conductivities. The well pressure response can be modeled as a function of its interconnectivity with the fracture network. [ABSTRACT FROM AUTHOR]

Published

2003

23. Effective permeability of fractured porous media in steady state flow.

Author

Bogdanov, I. I., Mourzenko, V. V., Thovert, J.-F., and Adler, P. M.

Abstract

Flow in fractured porous media was first investigated by Barenblatt and Zheltov [1960] and Barenblatt et al. [1960] by means of the double-porosity model. A direct, exact, and complete numerical solution of the flow in such media is given in this paper for arbitrary distributions of permeabilities in the porous matrix and in the fracture network. The fracture network and the porous matrix are automatically meshed; the flow equations are discretized by means of the finite volume method. This code has been so far applied to incompressible fluids and to statistically homogeneous media which are schematized as spatially periodic media. Some results pertaining to random networks of polygonal fractures are presented and discussed; they show the importance of the percolation threshold of the fracture network and possibly of the porous matrix. Moreover, the influence of the fracture shape can be taken into account by means of the excluded volume. [ABSTRACT FROM AUTHOR]

Published

2003

24. Asymptotic solutions for solute transport in dual velocity media.

Author

Dykhuizen, R.

Abstract

Dual velocity (often called dual porosity) models exist to describe a variety of solute transport processes. These exist for both chemical and geochemical systems. All current models reviewed in this paper can be represented by a generalized form. Characteristics of the solutions are obtained by investigating moments of the solution. Of particular interest is the simple asymptotic behavior. To verify the approach, an example problem is investigated where the exact analytical solution is compared to the asymptotic solution. It is shown that many dual velocity models can be well-represented by the inclusion of an increased dispersion term in a simpler single velocity model. [ABSTRACT FROM AUTHOR]

Published

1991

25. МОДЕЛИРОВАНИЕ ЗАДАЧ ФИЛЬТРАЦИИ В ТРЕЩИНОВАТЫХ ПОРИСТЫХ СРЕДАХ ПОСРЕДСТВОМ СМЕШАННОГО МЕТОДА КОНЕЧНЫХ ЭЛЕМЕНТОВ (ВСТРОЕННАЯ МОДЕЛЬ ТРЕЩИН)

Subjects

General Mathematics, finite element method, law of conservation of mass, Darcy law, закон Дарси, single phase liquid, трещиноватая среда, закон сохранения массы, fractured medium, встроенная модель трещин, метод конечных элементов, поток жидкости, built-in model of cracks, liquid flow, однофазная жидкость

Abstract

Представлена математическая модель смешанной размерности течения жидкости в трещиноватых пористых средах (встроенная модель трещин). Математическая модель описывается системой параболических уравнений: d-размерной для пористой среды и (d-1)-размерной для системы трещин. Система уравнений связана посредством задания специальной функции перетока. Данная модель позволяет использовать сетки для матрицы пористой среды, не зависящие от сетки для трещин. Для численного решения строится аппроксимация с использованием смешанного метода конечных элементов. Представлены результаты численного решения модельной задачи, которые показывают работоспособность предложенного метода для моделирования течения в трещиноватых пористых средах., We present a mathematical model of mixed dimension for modeling filtration problems in fractured porous media (built-in model of cracks). The mathematical model is described by a system of parabolic equations: d-dimensional for a porous medium and (d - 1)-dimensional for a system of cracks. The system of equations is connected by specifying a special flow function. This model allows the use of grids for a matrix of a porous medium not dependent on the grid for cracks. For the numerical solution, an approximation using the mixed finite element method is constructed. The results of the numerical solution of the model problem that show the operability of the proposed method for modeling the flow in fractured porous media are presented., №3 (2018)

Published

2018

26. A double scale methodology to investigate flow in karst fractured media via numerical analysis. The Cassino plain case study (Central Apennine, Italy)

Author

Michele Lancia, Michele Saroli, and Marco Petitta

Subjects

Article Subject, groundwater resource, 0208 environmental biotechnology, Apennines (Italy), 02 engineering and technology, Structural basin, fractured medium, Hydraulic conductivity, Data flow model, Geomorphology, earth and planetary sciences, geography, Hydrogeology, geography.geographical_feature_category, Piezometer, Numerical analysis, lcsh:QE1-996.5, flow modeling, hydraulic conductivity, Karst, 020801 environmental engineering, lcsh:Geology, General Earth and Planetary Sciences, Groundwater resources, Geology

Abstract

A methodology to evaluate the hydraulic conductivity of the karst media at a regional scale has been proposed, combining pumping tests and the hydrostructural approach, evaluating the hydraulic conductivity of fractured rocks at the block scale. Obtaining hydraulic conductivity values, calibrated at a regional scale, a numerical flow model of the Cassino area has been developed, to validate the methodology and investigate the ambiguity, related to a nonunique hydrogeological conceptual model. The Cassino plain is an intermontane basin with outstanding groundwater resources. The plain is surrounded by karst hydrostructures that feed the Gari Springs and Peccia Springs. Since the 1970s, the study area was the object of detailed investigations with an exceptional density of water-wells and piezometers, representing one of the most important karst study-sites in central-southern Italy. Application of the proposed methodology investigates the hydraulic conductivity tensor at local and regional scales, reawakening geological and hydrogeological issues of a crucial area and tackling the limits of the continuum modelling in karst media.

Published

2018

27. Investigation of permeability alteration of fractured limestone reservoir due to geothermal heat extraction using three-dimensional thermo-hydro-chemical (THC) model

Author

Sharad Kelkar, Abhijit Chaudhuri, V. R. Sandeep, S.N. Pandey, and Harihar Rajaram

Subjects

Calcite, Aperture alteration, Dissolution/precipitation, Geothermal reservoir, Reactive transport, Renewable energies, Dissolution, Extraction, Fracture, Geothermal fields, Geothermal heating, Petroleum reservoir engineering, Reaction rates, Reservoirs (water), Solubility, Solute transport, Three dimensional, Water injection, Minerals, alternative energy, dissolution, fractured medium, geothermal system, heat production, limestone, permeability, precipitation (chemistry), reaction kinetics, renewable resource, solute transport, thermal alteration, three-dimensional modeling, FEHM, Renewable Energy, Sustainability and the Environment, Mineralogy, Geology, Geotechnical Engineering and Engineering Geology, Reaction rate, Permeability (earth sciences), chemistry.chemical_compound, chemistry, Mass flow rate, Carbonate

Abstract

Heat extraction by cold water circulation disturbs the thermo-chemical equilibrium of a geothermal reservoir, activating the dissolution/precipitation of minerals in the fractures. Calcite being a more reactive mineral than other rock minerals composing the earth curst, we investigate the permeability alteration during geothermal heat production from carbonate reservoirs. In this study the simulations are performed using the code FEHM with coupled thermo-hydro-chemical (THC) capabilities for a three dimensional domain. The computational domain consists of a single fracture connecting the injection and production wells. For reactive alteration of aperture, the model considers that the kinetics of dissolution/precipitation is coupled to the equilibrium interactions among the aqueous species/ions. The reaction rate predominantly depends on the temperature dependent solubility and advective-dispersive solute transport in the fracture. Due to the nonuniform flow fields resulting from injection and production, the coupled thermo-hydro-chemical processes initiate significant variation of the aperture alteration rate over the fracture. We have considered different operating conditions such as different mass injection rate, injection temperature and concentration of minerals. Our simulations show that dissolution and precipitation can occur simultaneously at different locations in fracture. Furthermore the reaction rate varies with time and the reaction rate can also switch between dissolution and precipitation. To illustrate this interesting behavior, the variations of shape and size of zero reaction rate contours with time are shown. An interesting outcome is a non-monotonic evolution of the overall transmissivity between the wells. The alteration of overall transmissivity largely depends on the concentration of mineral in the injected water with respect to the solubility at the initial fracture temperature. For both dissolution and precipitation controlled cases, the rapid changes in transmissivity provide challenges for maintaining circulation of water at constant mass flow rate. � 2013 Elsevier Ltd.

Published

2014

28. New equations for predicting the field penetration index of tunnel boring machines in fractured rock mass

Author

Saffet Yagiz

Subjects

Field (physics), Correlation coefficient, penetration, 0211 other engineering and technologies, 02 engineering and technology, mathematical analysis, fractured medium, 020501 mining & metallurgy, Rate of penetration, Rock mass, project assessment, TBM, Field penetration, statistical analysis, Geotechnical engineering, freshwater, Rock mass classification, 021101 geological & geomatics engineering, General Environmental Science, water supply, Penetration (firestop), New York [United States], United States, Tunnel boring machine, Field penetration index, Brooklyn, New York [New York (STT)], rock mass response, 0205 materials engineering, Water tunnel, General Earth and Planetary Sciences, performance assessment, Stage (hydrology), Fractures, Geology

Abstract

The Queens Water Tunnel No. 3, stage 2 having 7.5-km length and 7-m diameter, is excavated by a high-power tunnel boring machine (TBM) underneath Brooklyn and Queens area for distributing freshwater throughout the New York City, USA. This paper offers a review of the project by considering the TBM performance and rock mass interaction. Using the individual cutter force, intact, and mass rock properties, TBM performance by means of field penetration index (FPI) was predicted and compared with actual results obtained in the field. Further, the study involves statistical analysis of the laboratory and field data including machine, intact, and mass rock properties to develop new empirical equations to estimate FPI. It is stated that the FPI, also converted to the rate of penetration, could be estimated utilizing intact and mass rock properties together with cutter force for similar type of rocks with correlation coefficient of 0.88. © 2017, Saudi Society for Geosciences.

Published

2017

29. Bacterial community evidence for anaerobic degradation of petroleum hydrocarbons in cold climate groundwater

Author

C. William Yeung, Charles W. Greer, Greg Bickerton, John Voralek, John Spoelstra, and Dale R. Van Stempvoort

Subjects

Microbial diversity, Northwest Territories, chemistry.chemical_compound, Bacterium, Nitrate, Chemical analysis, DGGE, Bacteria (microorganisms), Groundwater pollution, geography.geographical_feature_category, biology, Petroleum chemistry, Fractured medium, Contamination, Community structure, Fuel tanks, Biodegradation, Bioremediation, Temperature gradient gel electrophoresis, Geology, Electrophoresis, Canada, Biogeochemical cycle, Canadian Shield, Hydrocarbon degradation, Nitrate reduction, Pseudomonas, Microbial community, Reduction, Manganese, geography, Nitrates, Hydrochemistry, Environmental engineering, Thiobacillus, Geotechnical Engineering and Engineering Geology, biology.organism_classification, Sulfate, Hydrocarbons, Genes, chemistry, Hydrocarbon contamination, RNA, General Earth and Planetary Sciences, Geobacter, Anoxic conditions, Groundwater, Water well

Abstract

There is currently limited scientific data to assess whether groundwater bacterial communities in fractured rock environments can degrade petroleum hydrocarbon plumes in cold regions. The former Colomac Mine is located in the Canadian Shield in the Northwest Territories (mean annual air temperature of -. 5°C) and is currently listed on the Federal Contaminated Sites inventory. Groundwater in fractured rock beneath the former fuel tank-farm at the mine site is contaminated by petroleum hydrocarbons. The objectives of this study were to investigate the bacterial community structure in the groundwater associated with hydrocarbon contamination, and to probe for potential anaerobic microbial processes involved in intrinsic bioremediation. Groundwater monitoring wells previously installed at the site were used to collect samples for chemical, isotopic and microbial analyses. Denaturing gradient gel electrophoresis (DGGE) analysis identified a relatively high bacterial diversity in the least contaminated locations, but as the hydrocarbon contamination increased, bacterial diversity decreased. Sequence analysis of the 16S rRNA gene demonstrated that the bacteria belonged to a wide range of genera, such as Pseudomonas, Thiobacillus, and Geobacter, all of which have been associated with the anaerobic degradation of hydrocarbons. Two putative nitrate-reducing genes were detected in samples with high nitrate reducing activity. Both chemical and microbiological results indicated the presence of microbial anaerobic processes by using nitrate, manganese(IV), ferric iron and sulfate as electron acceptors and suggest that these anaerobic processes play an important role in the biodegradation of dissolved petroleum hydrocarbons in the groundwater at the Colomac site. Our results also revealed that more than one biogeochemical process linked to hydrocarbon degradation could be present in a single borehole and these processes could vary spatially at this site., Erratum published in volume 89, page 48, May 2013. DOI: 10.1016/j.coldregions.2013.01.007

Published

2013

30. МОДЕЛИРОВАНИЕ ВЛИЯНИЯ ТРЕЩИНОВАТОСТИ И ПОРИСТОСТИ ГОРНЫХ ПОРОД НА СЕЙСМИЧЕСКИЙ СИГНАЛ

Subjects

Fourier spectrum, mathematical modeling, пористость, трещиноватость, спектр Фурье, porous medium, seismic survey, сейсморазведка, математическое моделирование, fractured medium

Abstract

В работе рассмотрены сейсмические волны в трещиноватой или пористой среде, характерной для коллекторов углеводородов. Выявление признаков прохождения сейсмической волны через трещиноватые (пористые) зоны позволяет более эффективно прогнозировать свойства нефтегазовых месторождений. Созданы сейсмогеологические модели, описывающие слоистые, трещиноватые и пористые зоны с различной геометрией. Методом математического моделирования изучены спектральные характеристики сейсмических волн, прошедших через составленные модели. Результаты сравниваются с опубликованными данными других авторов, в том числе с результатами лабораторного моделирования. Получены генерализованные качественные и количественные характеристики, которые могут служить для обработки и интерпретации полевых данных.

Published

2016

31. Terrain Discontinuity Effects in the Regional Flow of a Complex Karstified Aquifer

Author

Maria P. Papadopoulou, Emmanouil A. Varouchakis, and George P. Karatzas

Subjects

geography, Faults, Coastal aquifer, geography.geographical_feature_category, Groundwater flow, Water flow, Aquifer, Fractured medium, Karst, Karstification, Electrical conduit, Discontinuity (geotechnical engineering), Subsurface flow simulation, Porous medium, Subsurface flow, Geomorphology, Geology, General Environmental Science

Abstract

Δημοσίευση σε επιστημονικό περιοδικό Summarization: Karst aquifers are characterized by spatial heterogeneity due to the presence of highly permeable channels and conduits in low-permeable fractured rocks (matrix block). Recent studies have reported a close relationship between surface and subsurface water in karstic regions due to the water flow through a complicated network of paths formed by fracture intersections. Subsurface flow in karstified aquifers ranges between conduit flow, in large passages with relatively high flow velocities, and diffuse flow, in the matrix block where Darcy’s law is still valid. In this paper, we present the simulation of a complex karstified aquifer system in Crete, Greece, where the presence of main faults drastically affects the regional flow. A discrete fracture approach in conjunction with an equivalent porous medium approach was adopted to simulate the mixed flow in the area of interest. The simulation results have shown that the length and the orientation of the dominant faults, primarily during the rainy season, affect the flow field. Presented on: Environmental Modeling and Assessment

Published

2009

32. Influence of Sorption Intensity on Solute Mobility in a Fractured Formation

Author

Suresh Kumar Govindarajan and Suresh Beniwal

Subjects

Rocks, Solid grains, porosity, Environmental Engineering, spatial analysis, Natural attenuations, Numerical models, Method of moments, Spatial moments, Mineralogy, Thermodynamics, complex mixtures, Limited informations, fractured medium, Matrix (geology), Mass transfer, mass transfer, High permeabilities, Environmental Chemistry, Boundary value problem, Matrix interfaces, General Environmental Science, Civil and Structural Engineering, Mathematical models, sorption, Computer simulation, Mathematical model, Chemistry, Attenuation, natural attenuation, rock, Sorption, Single fractures, boundary condition, Permeability (earth sciences), Fracture, Fractured formations, Matrix diffusions, Nonlinear sorptions, Rock matrixes, solute transport, Diffusive mass transfers, Sorption nonlinearities, Numerical methods, Fracture surfaces, permeability, numerical model, Hard rocks, Sorption sites

Abstract

Diffusive mass transfer between fracture and matrix accompanied with sorption significantly influences the efficiency of natural attenuation in hard rocks. While these processes have extensively been studied in a fractured formation, limited information exists on the sorption nonlinearity. For this purpose, a numerical model is developed that couples matrix diffusion and nonlinear sorption at the scale of a single fracture using the dual-porosity concept. The study is limited to a constant continuous solute source boundary condition. The influence of both favorable and unfavorable sorption intensities on solute mobility is investigated using the method of spatial moments. The differing capacities of available sorption sites between fracture surfaces at the fracture-matrix interface and the solid grain surfaces within the rock matrix result in a slower migration of solutes along the fracture, and a larger amount of diffusive mass transfer away from the high permeability fracture. � 2009 ASCE.

Published

2009

33. Effect of sorption intensities on dispersivity and macro-dispersion coefficient in a single fracture with matrix diffusion

Author

Suresh Kumar Govindarajan and Suresh Beniwal

Subjects

Hydrology, diffusion, dispersion, dispersivity, dual porosity, fracture flow, fractured medium, groundwater flow, matrix, natural attenuation, nonlinearity, numerical model, sorption, subsurface flow, Nonlinear system, Hydrogeology, Attenuation, Earth and Planetary Sciences (miscellaneous), Thermodynamics, Sorption, Boundary value problem, Diffusion (business), Constant (mathematics), Mixing (physics), Water Science and Technology

Abstract

Matrix diffusion and sorption are among the key processes impacting the efficiency of natural attenuation in the subsurface. While these processes have been studied extensively in fractured media, limited information exists on the sorption nonlinearity. To address this shortfall, a numerical model has been developed that couples matrix diffusion and nonlinear sorption at the scale of a single fracture using the dual-porosity concept. The study is limited to a constant continuous-solute-source boundary condition. The influence of sorption intensities on dispersivity and macro-dispersion coefficient is investigated using a method of spatial moments. Results suggest that mixing of solutes is significantly lowered by nonlinear sorptive behavior, with respect to the mixing caused by matrix diffusion for linearly sorbing solutes. Also, the magnitude of time dependent dispersivity during the pre-asymptotic regime is lower for nonlinearly sorbing solutes with respect to the linearly sorbing solutes. Reduced mixing is also observed for nonlinearly sorbing solutes under combined mechanisms of matrix diffusion and decay. � Springer-Verlag 2007.

Published

2007

34. Cleat-scale modelling of the coal permeability evolution due to sorption-induced strain.

Author

Bertrand, François, Buzzi, Olivier, and Collin, Frédéric

Subjects

*CARBON sequestration, *SORPTION, *COAL combustion, *PERMEABILITY, *COAL

Abstract

Coal permeability is known to be affected by the sorption-induced strain. Indeed, coal swells with gas sorption and shrinks with desorption, which is likely to modify the cleat aperture and thus the permeability. Coal permeability evolution is crucially important for either Coalbed Methane production (CBM) or Carbon dioxide Capture and Storage (CCS). A model is developed at the scale of the fractures to take into account the hydro-mechanical couplings observed experimentally. It is implemented in the finite element code Lagamine. This numerical model is developed at the scale of the fractures and the matrix blocks. Fractures are modelled with interface elements specially adapted to manage sorption/desorption by taking into account the Langmuir's isotherm (Langmuir, 1918). In the matrix blocks, the sorption strain is assumed proportional to the adsorbed gas content. Depending on the boundary conditions, sorption strain affects the stress state and thus the fracture aperture. Contrary to macroscale models (Bertrand et al. 2017), this model does not require the use of shape factors since the geometry can be explicitly represented. The implementation of the model is validated by comparison with the analytical solution on a simple geometry. The model is finally used to simulate gas injection on a representative elementary volume (REV) made up few matrix blocks. This modelling highlights the interests of a numerical approach to compute the permeability evolution compared to a porosity-based model. [ABSTRACT FROM AUTHOR]

Published

2019

35. Effect of aperture field anisotropy on two-phase flow in rough fractures.

Author

Yang, Zhibing, Li, Dongqi, Xue, Song, Hu, Ran, and Chen, Yi-Feng

Subjects

*TWO-phase flow, *INDUCTIVE effect, *ANISOTROPY, *CHEMICAL processes, *POWER spectra, *DISPLACEMENT (Mechanics)

Abstract

• The spatiotemporal distribution of fluid phases is strongly influenced by the aperture field anisotropy. • Anisotropy leads to stretched invading clusters, decreased fluid trapping, and increased relative permeabilities in the displacing direction. • Empirical equations are proposed to link the relative permeabilities to the anisotropy factor. The void space geometry of rough fractures is one of most important factors controlling two-phase flow in fractured media. This paper presents a numerical study on the effect of aperture field anisotropy on two-phase flow properties in rough fractures. By using a power spectrum based method, we generate multiple realizations of synthetic rough fractures with aperture fields of different anisotropy factors. Fluid–fluid displacement in these fractures is simulated by a modified invasion percolation model. It is found that the spatiotemporal distribution of fluid phases is strongly influenced by the aperture field anisotropy. On average, both the nonwetting phase saturation and the entrapped wetting phase saturations at breakthrough decrease with increasing anisotropy factor; but the specific interfacial area is larger for a higher anisotropy ratio. Relative permeabilities to both phases in the direction parallel to the displacement increase with the anisotropy factor, indicating a reduced phase interference due to aperture field anisotropy. Empirical equations are proposed to link the relative permeabilities to the anisotropy factor. These results improve our understanding of immiscible displacement in rough fractures and can be useful for predicting two-phase flow in fractured media at the large scale where geomechanical and chemical processes produce anisotropic roughness. [ABSTRACT FROM AUTHOR]

Published

2019

36. Numerical simulation of fracture flow with a mixed-hybrid FEM stochastic discrete fracture network model

Author

Maryška, Jiří, Severýn, Otto, and Vohralík, Martin

Published

2005

37. non renseigné

Author

Guihéneuf, Nicolas, Bureau de Recherches Géologiques et Minières (BRGM) (BRGM), Géosciences Rennes (GR), Centre National de la Recherche Scientifique (CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES), Universite Rennes 1, Olivier Bour, Jean-Christophe Maréchal, Université de Rennes (UR)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR), and Université de Rennes (UR)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Hydrogéologie, ecoulement, solute transport, transport de soluté, Hydrogeology, India, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, milieu fracturé, Inde, fractured medium

Abstract

Mémoire de Géosciences-Rennes n°150. ISBN : 2-914375-92-1; The fractured and weathered crystalline aquifers are often the only viable waterresource in arid and semi-arid regions. Nevertheless, these highly heterogeneous mediaare still poorly understood, especially the major structures that control groundwaterows and contaminant transport. To improve knowledge of those media, wehave conducted a detailed analysis of the hydrological properties of the Choutuppalexperimental site (Andhra Pradesh, Southern India) which has a dense network ofobservation boreholes. The study focus on 1) the identication of relevant structuresand the spatial variability of hydraulic properties and 2) the dominant solutetransport processes in these fractured media. First, the evolution of properties withdepth highlights the most permeable structures. The properties were then studied inhighly contrasted hydrological conditions. In high water level conditions, the saprolite{ granite interface controls groundwater ows at watershed scale. By contrast,when groundwater level is lower than this interface, hydrological compartmentalizationappears due to the decrease of the number of permeable fractures with depthwhich in turns decreases considerably connectivity with depth. A conceptual modelof groundwater ow is proposed at the watershed scale to illustrate these contrastingbehaviors. To identify the respective role of advective and diusive processes aectingboth solute transport, two kind of tracer experiments were conducted underdierent ows congurations. Combination of tracer experiments between boreholesand single borehole tests (push-pull) permit to highlight the predominant role of heterogeneousadvection. Matrix diusion can be neglected at least for the time scalesconsidered. The push-pull experiments have also allowed identifying the impact ofinvestigation scale on anomalous solute transport. All results give a better understandingof the properties and the vulnerability of those media subject to stronganthropogenic pressure.; Les milieux cristallins fractures et alteres representent souvent la seule ressourceen eau viable pour les regions arides et semi-arides. Toutefois, ces milieux fortementheterogenes restent encore mal connus, notamment les principales structuresqui contr^olent les ecoulements et le transport de contaminants. An d'ameliorerla connaissance de ces milieux, nous avons eectue une analyse detaillee des proprietes hydrologiques du site experimental de Choutuppal (Andhra Pradesh, Indedu Sud) qui benecie d'un reseau dense de forages d'observation. L'etude porte ala fois sur 1) l'identication des structures pertinentes et la variabilite spatiale desproprietes hydrauliques et 2) sur les processus dominant le transport de solutes dansces milieux fractures. Dans un premier temps, l'evolution des proprietes en fonctionde la profondeur a permis d'identier les structures les plus permeables. Les proprietes du milieu ont ensuite ete etudiees dans des conditions hydrologiques trescontrastees. En conditions de hautes eaux, l'interface saprolite { granite contr^oleles ecoulements souterrains a l'echelle du bassin versant. En revanche, lorsque lesniveaux piezometriques sont plus bas que cette interface, une compartimentationhydrologique apparait en raison de la diminution de la connectivite et du nombre defractures permeables en profondeur. Un modele conceptuel d'ecoulement souterrainest propose a l'echelle du bassin versant pour illustrer ces comportements hydrologiquescontrastes. Pour identier le r^ole respectif des processus advectifs et diusifsaectant tous deux le transport de solutes, deux types d'essais de tracage ont eterealises sous dierentes congurations d'ecoulement. La combinaison d'experiencesde tracage entre puits et en puits seul ("push-pull") a permis de mettre en avantle r^ole predominant de l'advection heterogene. La diusion dans la matrice peut^etre negligee, au moins pour les echelles de temps considerees. Les experiences de"push-pull" ont egalement permis d'identier l'impact de l'echelle d'investigation surle transport anormal de solutes. L'ensemble de ces resultats fournit une meilleureconnaissance des proprietes et de la vulnerabilite de ces milieux soumis a une fortepression anthropique.

Published

2014

38. Structure des écoulementset propriétés de transportdes aquifères cristallinsfracturés et altérés :Application au site deChoutuppal (Inde du Sud)

Author

Guihéneuf, Nicolas, Bureau de Recherches Géologiques et Minières (BRGM) (BRGM), Géosciences Rennes (GR), Centre National de la Recherche Scientifique (CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES), Universite Rennes 1, Olivier Bour, and Jean-Christophe Maréchal

Subjects

Hydrogéologie, ecoulement, solute transport, transport de soluté, Hydrogeology, India, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, milieu fracturé, Inde, fractured medium

Abstract

Mémoire de Géosciences-Rennes n°150. ISBN : 2-914375-92-1; The fractured and weathered crystalline aquifers are often the only viable waterresource in arid and semi-arid regions. Nevertheless, these highly heterogeneous mediaare still poorly understood, especially the major structures that control groundwaterows and contaminant transport. To improve knowledge of those media, wehave conducted a detailed analysis of the hydrological properties of the Choutuppalexperimental site (Andhra Pradesh, Southern India) which has a dense network ofobservation boreholes. The study focus on 1) the identication of relevant structuresand the spatial variability of hydraulic properties and 2) the dominant solutetransport processes in these fractured media. First, the evolution of properties withdepth highlights the most permeable structures. The properties were then studied inhighly contrasted hydrological conditions. In high water level conditions, the saprolite{ granite interface controls groundwater ows at watershed scale. By contrast,when groundwater level is lower than this interface, hydrological compartmentalizationappears due to the decrease of the number of permeable fractures with depthwhich in turns decreases considerably connectivity with depth. A conceptual modelof groundwater ow is proposed at the watershed scale to illustrate these contrastingbehaviors. To identify the respective role of advective and diusive processes aectingboth solute transport, two kind of tracer experiments were conducted underdierent ows congurations. Combination of tracer experiments between boreholesand single borehole tests (push-pull) permit to highlight the predominant role of heterogeneousadvection. Matrix diusion can be neglected at least for the time scalesconsidered. The push-pull experiments have also allowed identifying the impact ofinvestigation scale on anomalous solute transport. All results give a better understandingof the properties and the vulnerability of those media subject to stronganthropogenic pressure.; Les milieux cristallins fractures et alteres representent souvent la seule ressourceen eau viable pour les regions arides et semi-arides. Toutefois, ces milieux fortementheterogenes restent encore mal connus, notamment les principales structuresqui contr^olent les ecoulements et le transport de contaminants. An d'ameliorerla connaissance de ces milieux, nous avons eectue une analyse detaillee des proprietes hydrologiques du site experimental de Choutuppal (Andhra Pradesh, Indedu Sud) qui benecie d'un reseau dense de forages d'observation. L'etude porte ala fois sur 1) l'identication des structures pertinentes et la variabilite spatiale desproprietes hydrauliques et 2) sur les processus dominant le transport de solutes dansces milieux fractures. Dans un premier temps, l'evolution des proprietes en fonctionde la profondeur a permis d'identier les structures les plus permeables. Les proprietes du milieu ont ensuite ete etudiees dans des conditions hydrologiques trescontrastees. En conditions de hautes eaux, l'interface saprolite { granite contr^oleles ecoulements souterrains a l'echelle du bassin versant. En revanche, lorsque lesniveaux piezometriques sont plus bas que cette interface, une compartimentationhydrologique apparait en raison de la diminution de la connectivite et du nombre defractures permeables en profondeur. Un modele conceptuel d'ecoulement souterrainest propose a l'echelle du bassin versant pour illustrer ces comportements hydrologiquescontrastes. Pour identier le r^ole respectif des processus advectifs et diusifsaectant tous deux le transport de solutes, deux types d'essais de tracage ont eterealises sous dierentes congurations d'ecoulement. La combinaison d'experiencesde tracage entre puits et en puits seul ("push-pull") a permis de mettre en avantle r^ole predominant de l'advection heterogene. La diusion dans la matrice peut^etre negligee, au moins pour les echelles de temps considerees. Les experiences de"push-pull" ont egalement permis d'identier l'impact de l'echelle d'investigation surle transport anormal de solutes. L'ensemble de ces resultats fournit une meilleureconnaissance des proprietes et de la vulnerabilite de ces milieux soumis a une fortepression anthropique.

Published

2014

39. Discontinuous Galerkin methods for solving the acoustic wave equation

Author

Castromán, Gabriel Alejandro and Zyserman, Fabio Iván

Subjects

Absorbing boundary conditions, Absorbing Boundary Conditions, Oceanografía, Hidrología, Recursos Hídricos, Wave Equation, Discontinuous Galerkin methods, Física, Linear slip model, Discontinuous galerkin methods, Fractured medium, Ciencias de la Tierra y relacionadas con el Medio Ambiente, purl.org/becyt/ford/1 [https], purl.org/becyt/ford/1.5 [https], Wave equation, Linear Slip Model, CIENCIAS NATURALES Y EXACTAS

Abstract

In this work we develop a numerical simulator for the propagation of elastic waves by solving the one-dimensional acoustic wave equation with Absorbing Boundary Conditions (ABC’s) on the computational boundaries using Discontinuous Galerkin Finite Element Methods (DGFEM). The DGFEM allows us to easily simulate the presence of a fracture in the elastic medium by means of a linear-slip model. We analize the behaviour of our algorithm by comparing its results against analytic solutions. Furthermore, we show the frequency-dependent effect on the propagation produced by the fracture as appears in previous works. Finally, we present an analysis of the numerical parameters of the method., Facultad de Ciencias Astronómicas y Geofísicas

Published

2013

40. Semi-stochastic generator (FRAGMA) of 2D fractured media by mechanistic analogy – Application to reactive transport in a fractured package of vitrified nuclear waste

Author

Frédéric Bouyer, David Crevoisier, Stéphane Gin, Laboratoire d'étude des Interactions Sol - Agrosystème - Hydrosystème (UMR LISAH), Institut de Recherche pour le Développement (IRD)-Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)

Subjects

MESH, STOCKAGE GEOLOGIQUE, General Computer Science, Stochastic modelling, Water flow, DECHET NUCLAIRE VITRIFIE, [SDV]Life Sciences [q-bio], MECHANISTIC ANALOGY, 0207 environmental engineering, ANALOGIE STATISTIQUE, General Physics and Astronomy, Mineralogy, Mechanical engineering, Context (language use), 02 engineering and technology, FRACTURED MEDIUM, PROPAGATION, MAILLE, FISSURE, STATISTICAL DISTRIBUTION, MILIEU FRACTURE, medicine, NUCLEAR WASTE, General Materials Science, 020701 environmental engineering, QUADTREE, FRAGMA, Fissure, General Chemistry, 021001 nanoscience & nanotechnology, Durability, Finite element method, Computational Mathematics, medicine.anatomical_structure, Mechanics of Materials, INFORMATIQUE, [SDE]Environmental Sciences, Fracture (geology), 0210 nano-technology, Geology, Generator (mathematics)

Abstract

Cet article a été présenté lors du 19. International Workshop on Computational Mechanics of Materials (IWCMM 19) ; Constanta (Roumanie) - (2009-09-01 - 2009-09-04) / Atelier; International audience; In a geological storage context, the durability of nuclear glass is first and foremost determined by its alteration rate and by the surface being leached. This surface is comprised of a network of three-dimensional cracks due to the stress relief generated by the cooling of glass packages. In order to improve the methods employed so far for quantifying the impact of a fissure network on the life time of glass packages in geological disposal, we have developed a software, referred to as FRAGMA, which can be used to generate a realistic 2D geometry of the fissure network inside the glass based on mechanistic analogies. This type of tool is required for providing a mesh adapted to the calculation codes simulating water flow and glass alteration in such a medium. The main principles of this tool have been developed and its parameters have been defined based on the analysis of theoretical fracture processes and observations of real fissure networks. The 2D networks developed using FRAGMA are compared with cross-sections of real networks. It is outlined that the general structure of the fracture maps is correctly reproduced, compared to the observations; consequently, it is relevant to apply the tool for further studies in order to generate more complex crack networks, and to study the channeling in such structures, as expected by the strong organized pattern of the experimental fracture maps

Published

2011

41. Scattering of a longitudinal wave by a circular crack in a fluid-saturated porous medium

Author

Galvin, R., Gurevich, Boris, Galvin, R., and Gurevich, Boris

Abstract

Physical properties of many natural and man-made materials can be modelled using the concept of poroelasticity. Some porous materials, in addition to the network of pores, contain larger inhomogeneities such as inclusions, cavities, fractures or cracks. A common method of detecting such inhomogeneities is based on the use of elastic wave scattering. We consider interaction of a normally incident time-harmonic longitudinal plane wave with a circular crack imbedded in a porous medium governed by Biot's equations of dynamic poroelasticity. The problem is formulated in cylindrical co-ordinates as a system of dual integral equations for the Hankel transform of the wave field, which is then reduced to a single Fredholm integral equation of the second kind. It is found that the scattering that takes place is predominantly due to wave inducedfluid flow between the pores and the crack. The scattering magnitude depends on the size of the crack relative to the slow wave wavelength and has it's maximum value when they are of the same order.

Published

2007