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1.
Coupled hydro-mechanical (HM) processes are significant in geological engineering such as oil and gas extraction, geothermal energy, nuclear waste disposal and for the safety assessment of dam foundations and rock slopes, where the geological media usually consist of fractured rock masses. In this study, we developed a model for the analysis of coupled hydro-mechanical processes in porous rock containing dominant fractures, by using the numerical manifold method (NMM). In the current model, the fractures are regarded as different material domains from surrounding rock, i.e., finite-thickness fracture zones as porous media. Compared with the rock matrix, these fractured porous media are characterized with nonlinear behavior of hydraulic and mechanical properties, involving not only direct (poroelastic) coupling but also indirect (property change) coupling. By combining the potential energy associated with mechanical responses, fluid flow and solid–fluid interactions, a new formulation for direct HM coupling in porous media is established. For indirect coupling associated with fracture opening/closure, we developed a new approach implicitly considering the nonlinear properties by directly assembling the corresponding strain energy. Compared with traditional methods with approximation of the nonlinear constitutive equations, this new formulation achieves a more accurate representation of the nonlinear behavior. We implemented the new model for coupled HM analysis in NMM, which has fixed mathematical grid and accurate integration, and developed a new computer code. We tested the code for direct coupling on two classical poroelastic problems with coarse mesh and compared the results with the analytical solutions, achieving excellent agreement, respectively. Finally, we tested for indirect coupling on models with a single dominant fracture and obtained reasonable results. The current poroelastic NNM model with a continuous finite-thickness fracture zone will be further developed considering thin fractures in a discontinuous approach for a comprehensive model for HM analysis in fractured porous rock masses. 相似文献
2.
裂隙岩体流固耦合问题是目前国内外研究热点之一,采用离散元软件UDEC对裂隙岩体发生节理剪胀的渗透性变化规律进行了模拟分析。基于现场调查的裂隙信息统计生成裂隙网络岩体模型。 通过固定垂直应力、不断增加应力比RS(RS=水平应力/垂直应力)使岩体出现剪胀,采用库伦滑移节理模式对岩体在剪胀过程中的渗透性变化情况进行模拟。结果发现:当应力比较小(RS3.1)时,节理水力隙宽、流速、渗透系数等参数都随着应力比的增加表现出明显的降低; 而当岩体出现剪胀现象之后(应力比大于3.1),发生剪切滑移和剪胀现象的节理控制着裂隙岩体的总体渗流行为,与不考虑节理剪胀的计算结果相比,岩体渗透能力出现了显著增长。这一结果表明,剪胀对裂隙岩体渗透性的影响是显著而不可忽视的。 相似文献
3.
In this paper a new analytical model is proposed to determine the permeability tensor for fractured rock masses based on the superposition principle of liquid dissipation energy. This model relies on the geometrical characteristics of rock fractures and the corresponding fracture network, and demonstrates the coupling effect between fluid flow and stress/deformation. This model empirically considers the effect of pre‐peak shear dilation and shear contraction on the hydraulic behavior of rock fractures and can be used to determine the applicability of the continuum approach to hydro‐mechanical coupling analysis. Results of numerical analysis presented in this paper show that the new model can effectively describe the permeability of fractured rock masses, and can be applied to the coupling analysis of seepage and stress fields. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献
4.
岩石裂隙的非饱和渗透特性是岩土、能源和环境等领域科学研究中的热点问题。采用三维激光扫描获取花岗岩裂隙的表面形貌特征,分析裂隙微观形貌特征对非饱和渗透特性的影响。研究在张拉、压缩、剪切等复杂荷载作用下裂隙开度分布的演化规律,建立复杂荷载作用下岩石裂隙非饱和毛细压力曲线演化模型。基于裂隙的微观形貌特征推导了岩石裂隙非饱和相对渗透系数模型,通过与试验数据对比,验证了模型的准确性和有效性,并在此基础上建立了复杂荷载作用下岩石裂隙非饱和相对渗透系数演化模型。研究成果对非饱和条件下裂隙岩体的水-力耦合机制研究具有一定指导意义。 相似文献
5.
Qinghua Lei Xiaoguang Wang Jiansheng Xiang John-Paul Latham 《Hydrogeology Journal》2017,25(8):2251-2262
A study about the influence of polyaxial (true-triaxial) stresses on the permeability of a three-dimensional (3D) fractured rock layer is presented. The 3D fracture system is constructed by extruding a two-dimensional (2D) outcrop pattern of a limestone bed that exhibits a ladder structure consisting of a “through-going” joint set abutted by later-stage short fractures. Geomechanical behaviour of the 3D fractured rock in response to in-situ stresses is modelled by the finite-discrete element method, which can capture the deformation of matrix blocks, variation of stress fields, reactivation of pre-existing rough fractures and propagation of new cracks. A series of numerical simulations is designed to load the fractured rock using various polyaxial in-situ stresses and the stress-dependent flow properties are further calculated. The fractured layer tends to exhibit stronger flow localisation and higher equivalent permeability as the far-field stress ratio is increased and the stress field is rotated such that fractures are preferentially oriented for shearing. The shear dilation of pre-existing fractures has dominant effects on flow localisation in the system, while the propagation of new fractures has minor impacts. The role of the overburden stress suggests that the conventional 2D analysis that neglects the effect of the out-of-plane stress (perpendicular to the bedding interface) may provide indicative approximations but not fully capture the polyaxial stress-dependent fracture network behaviour. The results of this study have important implications for understanding the heterogeneous flow of geological fluids (e.g. groundwater, petroleum) in subsurface and upscaling permeability for large-scale assessments. 相似文献
6.
Based on a simulation of three-dimensional fracture networks and a superposition principle of liquid dissipation energy for fractured rock masses, a model of the fracture permeability tensor is proposed. An elastic constitutive model of rock fractures, considering fracture closure and dilation during shearing, is also proposed, based on the dilation angle of the fracture. Algorithms of flow-path searching and calculation of the effective flow coefficients for fracture networks are presented, together with a discussion on the influence of geometric parameters of the fractures (trace length, spacing, aperture, orientation and the number of fracture sets) on magnitude, anisotropy of hydraulic permeability and the size of a representative elementary volume (REV). The anisotropy of hydraulic permeability of fractured rock masses is mainly affected by orientation and the number of fracture sets, and the REV size is mainly influenced by trace length, spacing and the number of fracture sets. The results of studies on REV size and the influence of in-situ stress on hydraulic conductivity of the rock mass on the slope of Jinping-I hydropower station, China, are presented using the developed models and methods. The simulation results agreed well with the results obtained from field water-pressure measurements, with an error of less than 10 %. 相似文献
7.
Hisham T. Eid 《Acta Geotechnica》2007,2(2):97-102
Extensive field and laboratory testing programs were performed to develop a relationship between the permeability of a fractured
limestone and the core recovery values. The studied limestone does not encompass any jointing system but is consistently and
randomly fractured. Nineteen in situ falling head permeability tests were carried out to measure permeability of the fractured
rock mass at a representative study area. Analysis of test results has led to the formulation of an empirical equation that
estimates the permeability of the rock mass in terms of its solid core recovery value and the permeability of the fractures
filling material. Unlike the existing equations for estimating the permeability of rock masses, the proposed equation is simple
and utilizes parameters that can be easily determined in regular geotechnical field and laboratory investigations. A technique
is also presented to estimate the permeability of a rock layer, the quality of which significantly changes with depth, using
the proposed equation that utilizes a single value of core recovery. Analysis of well-documented pumping test results supported
the validity of the proposed equation and technique. 相似文献
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采用UDEC离散单元法中关于裂隙岩体开挖模拟及水力全耦合分析模型,分析裂隙岩体洞室开挖后,因围岩应力与水力耦合作用导致裂隙隙宽变化及渗流变化的过程。为了更直观地了解耦合作用对裂隙岩体渗透特性的影响,以隧洞开挖为例,用开挖后隧洞内总涌水量来表征岩体的渗透特性。利用数值试验的方法,研究了块体边界大小、初始应力比、裂隙隙宽和裂隙夹角对开挖后隧洞内涌水量变化的影响,进而可以看出它们对裂隙岩体渗透性的影响。并得出如下结论:随着块体尺寸和初始应力比的增大,隧洞内总涌水量减少;随初始隙宽的增大涌水量增加并当达到某一固定值时保持不变;隧洞涌水量在θ2/θ1=3.5,其中θ1=30°,即两组节理的夹角为75°处达到最大。 相似文献
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裂隙岩体宏观力学参数的二维数值模拟 总被引:1,自引:0,他引:1
岩体通常含许多不同尺度的裂隙,因而力学性质非常复杂。由于现场测试及常规实验室试验常受各种条件的限制,因而其不能准确反映岩体的宏观物理力学性质。本文基于有限元分析软件对二维情况下的完整岩体和含不同倾角的软弱夹层的岩体在单轴和双轴压缩下进行了数值模拟,得到岩体变形的应力-应变曲线。该类曲线能反映裂隙对岩体力学参数的影响,对于指导工程实践有一定的意义,并且为获取岩体力学参数提供了新的途径。 相似文献
13.
Changes in the hydraulic conductivity field, resulting from the redistribution of stresses in fractured rock masses, are difficult to characterize due to complex nature of the coupled hydromechanical processes. A methodology is developed to predict the distributed hydraulic conductivity field based on the original undisturbed parameters of hydraulic conductivity, Rock Mass Rating (RMR), Rock Quality Designation (RQD), and additionally the induced strains. The most obvious advantage of the methodology is that these required parameters are minimal and are readily available in practice. The incorporation of RMR and RQD, both of which have been applied to design in rock engineering for decades, enables the stress-dependent hydraulic conductivity field to be represented for a whole spectrum of rock masses. Knowledge of the RQD, together with the original hydraulic conductivity, is applied to determine the effective porosity for the fractured media. When RQD approaches zero, the rock mass is highly fractured, and fracture permeability will be relatively high. When RQD approaches 100, the degree of fracturing is minimal, and secondary porosity and secondary permeability will be low. These values bound the possible ranges in hydraulic behaviour of the secondary porosity within the system. RMR may also be applied to determine the scale effect of elastic modulus. As RMR approaches 100, the ‘softening’ effect of fractures is a minimum and results in the smallest strain-induced change in the hydraulic conductivity because the induced strain is uniformly distributed between fractures and matrix. When RMR approaches zero, the laboratory modulus must be reduced significantly in order to represent the rock mass. This results in the largest possible change in the hydraulic conductivity because the induced strain is applied entirely to the fracture system. These values of RMR bound the possible ranges in mechanical behaviour of the system. The mechanical system is coupled with the hydraulic system by two empirical parameters, RQD and RMR. The methodology has been applied to a circular underground excavation and to qualitatively explain the in situ experimental results of the macropermeability test in the drift at Stripa. Copyright © 1999 John Wiley & Sons, Ltd. 相似文献
14.
Summary. In a fractured rock mass, variations in stress and fluid pressure induced by engineering activities can significantly affect
the hydrogeological properties. A significant change in fracture transmissivities can also be experienced in the far-field.
The simulation of this kind of change requires a Hydro-Mechanical (HM) coupled model. The purpose of this paper is to show
how such a model can be used to analyse the evolution of deformation and pressure in a fracture subjected to fluid injection.
A 2D BEM-FEM code is used to solve the non-linear system of equations that describe the dependency of transmissivity on local
fracture closure. The results of a sensitivity analysis of the essential fracture parameters allow one to gain insight into
the importance of the HM models in the framework of the hydrogeology of fractured rock masses. Results obtained from a system
of two impervious blocks and a saturated fracture are reported, in order to show the possibilities offered by this technique. 相似文献
15.
Fracture networks play a more significant role in conducting fluid flow and solute transport in fractured rock masses, comparing with that of the rock matrix. Accurate estimation of the permeability of fracture networks would help researchers and engineers better assess the performance of projects associated with fluid flow in fractured rock masses. This study provides a review of previous works that have focused on the estimation of equivalent permeability of two-dimensional (2-D) discrete fracture networks (DFNs) considering the influences of geometric properties of fractured rock masses. Mathematical expressions for the effects of nine important parameters that significantly impact on the equivalent permeability of DFNs are summarized, including (1) fracture-length distribution, (2) aperture distribution, (3) fracture surface roughness, (4) fracture dead-end, (5) number of intersections, (6) hydraulic gradient, (7) boundary stress, (8) anisotropy, and (9) scale. Recent developments of 3-D fracture networks are briefly reviewed to underline the importance of utilizing 3-D models in future research. 相似文献
16.
开展贯通裂隙岩样在法向卸荷下的压剪破坏研究,有助于更好地理解岩体裂隙在卸荷条件下的失稳特征。对单裂隙贯通岩样开展剪切应力峰前一系列法向卸荷破坏试验,分析了法向卸荷下试样裂隙的变形及能量演化规律。结果表明,法向卸荷下裂隙压剪失稳时的法向应力大于常规直剪试验的对应值,裂隙的抗剪能力减弱;剪切位移随法向应力减小而增大;卸荷变形比K随裂隙轮廓面积比Rs的增加而增大;卸荷过程中总变形能U0由减小转变为增加的现象可用于预测岩石裂隙卸荷失稳。研究结果对理解贯通裂隙岩体压剪卸荷失稳破坏具有一定参考意义。 相似文献
17.
注浆堵水是地下工程和矿山水害防控的常用技术措施,但是,目前浆液扩散机理与采动效应的研究滞后于工程实践的要求,制约了注浆工程科学有效地实施。本文跟踪裂隙岩体中注浆浆液扩散研究,受裂隙地下水“偏流效应”启发,提出了深部矿山裂隙岩体动水注浆浆液扩散偏流效应的命题,包括2个关键科学问题: 裂隙岩体动水注浆浆液扩散偏流机理、偏流形成的“浆-岩”组合体采动变形破坏和渗透性变化机理。结合研究趋势,提出了跨学科综合研究方法。以典型矿山注浆防治水工程为背景,研究深部矿山水文地质结构及其采动时空演化,揭示裂隙岩体动水条件下注浆浆液扩散偏流机理及其影响因素,获得裂隙岩体内帷幕注浆形成的三维异形“浆-岩”组合体形态和力学特性,建立浆液偏流扩散数学模型,构建“浆-岩”组合体渗透性采动效应评价方法,为深部矿山水害防治和安全生产提供科学基础。 相似文献
18.
Stress-Dependent Fluid Flow and Permeability in Fractured Media: from Lab Experiments to Engineering Applications 总被引:5,自引:3,他引:5
J. Zhang W. B. Standifird J.-C. Roegiers Y. Zhang 《Rock Mechanics and Rock Engineering》2007,40(1):3-21
Summary. Permeability is a physical property in rocks of extreme importance in energy engineering, civil and environmental engineering,
and various areas of geology. Early on, fractures in fluid flow models were assumed to be rigid. However, experimental research
and field data confirmed that stress-deformation behavior in fractures is a key factor governing their permeability tensor.
Although extensive research was conducted in the past, the three-dimensional stress-permeability relationships, particularly
in the inelastic deformation stage, still remain unclear. In this paper, laboratory experiments conducted on large concrete
blocks with randomly distributed fractures and rock core samples are reported to investigate fluid flow and permeability variations
under uniaxial, biaxial and triaxial complete stress-strain process. Experimental relationships among flowrate, permeability
and fracture aperture in the fractured media are investigated. Results show that the flowrate and stress/aperture exhibit
“cubic law” relationship for the randomly distributed fractures.
A permeability-aperture relationship is proposed according to the experimental results. Based on this relationship, stress-dependent
permeability in a set of fractures is derived in a three-dimensional domain by using a coupled stress and matrix-fracture
interactive model. A double porosity finite element model is extended by incorporating such stress-dependent permeability
effects. The proposed model is applied to examine permeability variations induced by stress redistributions for an inclined
borehole excavated in a naturally fractured formation. The results indicate that permeability around underground openings
depends strongly on stress changes and orientations of the natural fractures. 相似文献
19.
岩溶化裂隙岩体是普遍发育于自然界中具有初始损伤的岩体。为了研究岩溶化裂隙岩体损伤破坏特征,本文以贵州某地赋存的溶蚀岩体为研究对象,运用损伤力学理论构建岩溶化裂隙岩体在单轴压缩条件下的损伤演化模型,并建立岩溶化裂隙岩体损伤演化方程。采用颗粒流数值软件进行单轴压缩数值试验,进一步研究岩溶化裂隙岩体试件在单轴压缩条件下的损伤演化特征,分析岩溶化裂隙岩体的微观损伤特征。结果表明:岩溶化裂隙岩体的初始损伤主要包括溶蚀损伤和裂隙损伤。岩溶化裂隙岩体的初始损伤随着溶蚀率的增加而增加,最终增加速率趋于平缓;岩溶化裂隙岩体的损伤演化曲线均呈“S”型变化,先缓慢增加,再迅速增加,最后缓慢增加至损伤值1;岩溶化裂隙岩体存在异构特征,导致破坏裂隙起源于具有初始损伤的溶蚀孔洞和裂隙处,随后裂隙经历萌发、扩张和剪切作用、数量和长度增加以及裂隙贯通4个阶段后发生宏观破坏。 相似文献
20.
裂隙岩体渗流-应力耦合等效渗流阻模型 总被引:2,自引:0,他引:2
针对含区域主干裂隙岩体在应力作用下的渗透特性进行了研究。运用单裂隙平行板渗流理论、弹性力学方法,结合模拟电路知识,提出等效渗流阻的概念。在分析裂隙岩体区域中主干裂隙系统几何构造的基础上,建立了基于等效渗流阻的- 渗流-应力耦合模型,得到了裂隙岩体等效渗流阻、渗透率与应力之间的关系,从而为研究含区域主干裂隙岩体的应力-渗流耦合规律提供了方便。结合一个基于等效渗流阻模型的算例,考察了含“人”字形组合裂隙试样的渗透特性。经进一步细化后,该模型可用于分析地应力作用下的含区域主干裂隙岩体渗流演化规律。 相似文献