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以甘肃北山花岗岩中发育的构造裂隙(主要指节理)为研究对象,采用高精度GPS、罗盘等对其进行现场测量,获取裂隙的迹长及产状信息,并将信息导入ArcGIS平台建立裂隙属性数据库; 进而应用地质统计分析理论,以裂隙面密度P21为地质统计分析的区域性变量,探索花岗岩岩体裂隙空间分布特征; 然后借助ArcGIS软件平台建立变异函数模型,利用地质统计学的普通克里金插值方法得到整个区域的面密度预测分布图。结果表明:芨芨槽块段所测某区域裂隙面密度值的半变异函数变程值在20~30m之间,NS和EW方向有明显差异,由此知该区域裂隙面密度分布具有显著空间自相关性,但分布特征不均匀; 此结论对北山花岗岩裂隙空间分布特征的深入研究以及三维裂隙网络建模具有重要参考价值。 相似文献
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裂隙连通率是进行岩体稳定性评价不可或缺的参数,合理确定三维裂隙连通率的大小一直是岩体力学中的难题之一.结合金沙江乌东德水电站工程,采用投影法对乌东德坝区850m高程的拱座岩体进行了三维连通率研究.根据研究区域的工程地质条件,确定了拱座岩体的潜在滑动边界;采用逆建模方法建立拱座岩体的裂隙网络模型;在裂隙网络模型中设置不同大小、不同位置和不同方位的投影面进行三维连通率求解,探讨三维连通率的尺寸效应、分布特征和空间变化规律.研究结果表明:侧滑面连通率尺寸效应显著而底滑面连通率尺寸效应不明显;侧滑面连通率近似呈正态分布,左岸侧滑面连通率均值为3.9%,右岸侧滑面连通率均值为8.1%;侧滑面连通率随空间方位产生明显变化,投影面倾角越大,侧滑面连通率越小.这为乌东德坝区拱座岩体的稳定性评价提供了重要的参数依据. 相似文献
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岩体深部结构面是岩体工程质量评价、三维地质建模、钻孔水文地质试验和地下实验室工程设计等研究的重要影响因素。甘肃北山新场花岗岩地段已被确定为中国高放废物地质处置地下实验室的推荐场址。基于超声波钻孔电视技术和其他地质资料对场址岩体深部结构面特征开展研究,结果表明:场址内花岗岩体具有很好的完整性,有利于地下实验室的工程建造。场址周边断裂构造纵向延伸范围有限,断裂带规模和横向影响范围随深度增加而逐渐减小。结构面产状特征与区域构造特征相一致,为区域构造特征研究提供了佐证。研究成果为地下实验室工程的开挖设计提供了重要参考依据,并为区域基础地质研究提供参考资料。 相似文献
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快速准确地识别岩体裂隙的三维分布特征是西南山区铁路防灾减灾的关键.本研究提出了一套岩体裂隙可视化新方法,基于测窗调查的裂隙数据,依托球坐标及极射赤平投影进行数字化处理及降维,利用K-Means++聚类算法、Fisher分布模型和蒙特卡洛模拟,完成裂隙产状数据的自动分组和模拟,最后运用Python及圆盘模型实现岩体裂隙三维可视化.本研究采用坐标变换和三角网格曲面的方式,更有利于与其他三维建模软件嵌套分析.水电站工程的先行应用研究表明产状数据服从Fisher分布,本文的模型相对于传统玫瑰花图和施密特图有着一定的优势.因此,本文建立的岩体裂隙模型具有直观快速反映区域裂隙网络三维分布特征的优点,研究成果可以直接服务于西南山区铁路施工阶段隧道掌子面及洞壁的节理裂隙三维识别以及防灾减灾研究. 相似文献
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地质处置库是处理高放废物的有效途径,而预选区内的岩体构造则是影响地质处置库稳定性的关键因素之一.为了探明预选区内花岗岩岩体的断裂构造、空间形态,以甘肃北山新场-向阳山预选区岩体为例,简述了EH4系统的工作原理、野外数据采集以及数据处理与解释的全过程.结果表明,应用该方法查明了研究区内断裂的发育情况、岩体的空间形态以及岩体中的不良地质体的分布,为高放废物地质处置库场地的稳定性和完整性评价提供了参考. 相似文献
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基于高密度电阻率成像法的基岩裂隙网络原位识别试验研究 总被引:3,自引:0,他引:3
对于以低渗透性基岩为处置围岩的核废物地质处置库来说,基岩中的裂隙网络是地下水进入处置库和放射性核素从处置库向外界环境迁移的主要通道。因此,研究基岩内裂隙网络的空间分布特征,对核废物的地质处置是否安全具有十分重要的意义。本文以花岗岩为例通过野外试验,分析研究了利用高密度电阻率成像法(ERT),对处于不同状态条件下的基岩中裂隙网络进行三维原位识别的效果及能力。结果表明在以高阻值为主要电特性的基岩中,利用ERT对基岩中三维裂隙网络进行原位识别是可行的,并且裂隙的电阻率特征能较好的反映出裂隙的空间分布位置和形态,但对裂隙网络识别的效果与测线方向有关。 相似文献
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对于以低渗透性基岩为处置围岩的核废物地质处置库来说,基岩中的裂隙网络是地下水进入处置库和放射性核素从处置库向外界环境迁移的主要通道.因此,研究基岩内裂隙网络的空间分布特征,对核废物的地质处置是否安全具有十分重要的意义.本文以花岗岩为例通过野外试验,分析研究了利用高密度电阻率成像法(ERT),对处于不同状态条件下的基岩中裂隙网络进行三维原位识别的效果及能力.结果表明在以高阻值为主要电特性的基岩中,利用ERT对基岩中三维裂隙网络进行原位识别是可行的,并且裂隙的电阻率特征能较好的反映出裂隙的空间分布位置和形态,但对裂隙网络识别的效果与测线方向有关. 相似文献
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本文分别以非接触式测量与三维裂隙网络模拟技术对汶川县绵虒镇大溪沟沟口高陡斜坡的结构面系统进行了深入研究。以无人机、数字近景摄影测量与三维激光扫描方法建立了现场斜坡的三维DEM模型并识别与解译了斜坡的结构面系统。尤其是采用无人机与近景摄影测量技术,识别并解译了整体斜坡的长大控制性结构面与坡面上的6663条随机构造结构面。基于以上数据,本文提出了一种适用于高陡斜坡分析的超大窗口三维裂隙网络模拟方法,采用概率统计与空间几何推导的方法,建立了岩体三维结构面的直径、产状与密度计算方法。这种方法更加简便且针对性强,现场验证也表明其具有较高的模拟精度。 相似文献
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离散裂隙渗流方法与裂隙化渗透介质建模 总被引:4,自引:1,他引:4
流体渗流模拟的连续介质方法通常适用于多孔地质体,并不一定适用于裂隙岩体,由于裂隙分布及其特征与孔隙差异较大。若流体渗流主要受裂隙的控制,对于一定尺寸的裂隙岩体,多孔介质假设则较难刻划裂隙岩体的渗流特征。离散裂隙渗流方法不但可直接用于模拟裂隙岩体非均质性和各向异性等渗流特征,而且可用其确定所研究的裂隙岩体典型单元体及其水力传导(渗透)张量大小。主要讨论了以下问题:(1)饱和裂隙介质中一般的离散流体渗流模拟;(2)裂隙岩体中的REV(典型单元体)及其水力传导(渗透)张量的确定;(3)利用离散裂隙网络流体渗流模型研究裂隙方向几何参数对水力传导系数和REV的影响;(4)在二维和三维离散裂隙流体渗流模型中对区域大裂隙和局部小裂隙的处理方法。调查结果显示离散裂隙流体渗流数学模型可用来评价不同尺度上的裂隙岩体的水力特征,以及裂隙方向对裂隙化岩体的水力特征有着不可忽视的影响。同时,局部小裂隙、区域大裂隙应当区别对待,以便据其所起的作用及水力特征,建立裂隙化岩体相应的流体渗流模型。 相似文献
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J. P. Chilès 《Mathematical Geology》1988,20(6):631-654
The modeling of fracture networks is useful for fluid flow and rock mechanics studies. About 6600 fracture traces were recorded on drifts of a uranium mine in a granite massif. The traces have an extension of 0.20–20 m. The network was studied by fractal and by geostatistical methods but can be considered neither as a fractal with a constant dimension nor a set of purely randomly located fractures. Two kinds of generalization of conventional models can still provide more flexibility for the characterization of the network: (a) a nonscaling fractal model with variable similarity dimension (for a 2-D network of traces, the dimension varying from 2 for the 10-m scale to 1 for the centimeter scale, (b) a parent-daughter model with a regionalized density; the geostatistical study allows a 3-D model to be established where: fractures are assumed to be discs; fractures are grouped in clusters or swarms; and fracturation density is regionalized (with two ranges at about 30 and 300 m). The fractal model is easy to fit and to simulate along a line, but 2-D and 3-D simulations are more difficult. The geostatistical model is more complex, but easy to simulate, even in 3-D.This paper was presented at Emerging Concepts, MGUS-87 Conference, Redwood City, California, 13–15 April 1987. 相似文献
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Cubic law with aperture-length correlation: implications for network scale fluid flow 总被引:2,自引:2,他引:0
Christian Klimczak Richard A. Schultz Rishi Parashar Donald M. Reeves 《Hydrogeology Journal》2010,18(4):851-862
Previous studies have computed and modeled fluid flow through fractured rock with the parallel plate approach where the volumetric flow per unit width normal to the direction of flow is proportional to the cubed aperture between the plates, referred to as the traditional cubic law. When combined with the square root relationship of displacement to length scaling of opening-mode fractures, total flow rates through natural opening-mode fractures are found to be proportional to apertures to the fifth power. This new relationship was explored by examining a suite of flow simulations through fracture networks using the discrete fracture network model (DFN). Flow was modeled through fracture networks with the same spatial distribution of fractures for both correlated and uncorrelated fracture length-to-aperture relationships. Results indicate that flow rates are significantly higher for correlated DFNs. Furthermore, the length-to-aperture relations lead to power-law distributions of network hydraulic conductivity which greatly influence equivalent permeability tensor values. These results confirm the importance of the correlated square root relationship of displacement to length scaling for total flow through natural opening-mode fractures and, hence, emphasize the role of these correlations for flow modeling. 相似文献
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Wang Mingyu The University of Arizona Tucson Arizona USA Department of Water Resources Environmental Engineering China University of Geosciences Beijing Chen Jinsong Wan Li Department of Water Resources Environmental Engineering 《中国地质大学学报(英文版)》2001,12(3)
INTRODUCTIONGroundwaterorfluidflowmodelinginfracturedrocksisacomplicatedtheoreticalandappliedtopic.Boththeoreticallyandoperationally ,itisimportantinmanyfieldssuchasgeologicalandhydrogeologicalengineering ,environmentalengineeringandpetroleumengineerin… 相似文献
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S. Seifollahi P. A. Dowd C. Xu A. Y. Fadakar 《Rock Mechanics and Rock Engineering》2014,47(4):1225-1235
Fracture network modelling plays an important role in many application areas in which the behaviour of a rock mass is of interest. These areas include mining, civil, petroleum, water and environmental engineering and geothermal systems modelling. The aim is to model the fractured rock to assess fluid flow or the stability of rock blocks. One important step in fracture network modelling is to estimate the number of fractures and the properties of individual fractures such as their size and orientation. Due to the lack of data and the complexity of the problem, there are significant uncertainties associated with fracture network modelling in practice. Our primary interest is the modelling of fracture networks in geothermal systems and, in this paper, we propose a general stochastic approach to fracture network modelling for this application. We focus on using the seismic point cloud detected during the fracture stimulation of a hot dry rock reservoir to create an enhanced geothermal system; these seismic points are the conditioning data in the modelling process. The seismic points can be used to estimate the geographical extent of the reservoir, the amount of fracturing and the detailed geometries of fractures within the reservoir. The objective is to determine a fracture model from the conditioning data by minimizing the sum of the distances of the points from the fitted fracture model. Fractures are represented as line segments connecting two points in two-dimensional applications or as ellipses in three-dimensional (3D) cases. The novelty of our model is twofold: (1) it comprises a comprehensive fracture modification scheme based on simulated annealing and (2) it introduces new spatial approaches, a goodness-of-fit measure for the fitted fracture model, a measure for fracture similarity and a clustering technique for proposing a locally optimal solution for fracture parameters. We use a simulated dataset to demonstrate the application of the proposed approach followed by a real 3D case study of the Habanero reservoir in the Cooper Basin, Australia. 相似文献
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DNAPLs本身的化学性质、裂隙的几何性质以及泄漏条件等影响重非水相流体(DNAPLs)在裂隙介质中的运移和分布。针对DNAPLs的运移规律研究多集中在孔隙介质和单裂隙中,在随机网络裂隙中的研究较少。本研究生成随机网络裂隙是基于蒙特卡罗方法,运用像素扫描识别并输出裂隙的坐标和宽度,然后采用PetraSim模拟四氯乙烯(PCE)在随机网络裂隙中的运移,探讨裂隙宽度空间变异性和泄漏条件(包括泄漏速率和泄漏位置)对DNAPLs运移的影响。数值模拟结果表明:DNAPLs的空间展布和运移路径受裂隙宽度空间变异性影响,随着网络裂隙中裂隙宽度空间变异性增大,出现优势通道,DNAPLs运移的速率加快,DNAPLs的质心位置和饱和度空间分布发生明显变化;DNAPLs的运移速率和空间展布受泄漏速率影响,泄漏速率越大,DNAPLs运移速率越快,模型底部蓄积的DNAPLs的饱和度越大,DNAPLs的空间展布也越大;同一网络裂隙中,泄漏位置不同,导致DNAPLs的运移路径及分布范围不同,不同的泄漏位置重力方向裂隙空间变异性不同,导致DNAPLs运移路径和空间展布各不相同。研究结果可以丰富裂隙介质中DNAPLs运移机理研究,为裂隙介质中DNAPLs污染修复提供模型参考。 相似文献
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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