Investigation of nonlinear flow in discrete fracture networks during shear based on XFEM method

IF 5.3 1区 工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
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引用次数: 0

Abstract

To characterize fractured rock masses, self-developed programs are utilized to generate fracture networks. A nonlinear flow model considering the shear dilatancy effect is established, and a numerical solution method for modelling nonlinear flow in fractured rock masses during shear is proposed on the basis of extended finite element analysis. The contour plots reveal distinct patterns in the water pressure and flow distributions within fractures. The reduction in the lateral pressure coefficient and increase in the shear stiffness of the joints facilitate a more homogeneous distribution of the water pressure gradient. Under the same vertical stress, increasing the lateral pressure coefficient or decreasing the shear stiffness leads to a more pronounced shear dilatancy effect on fractures. Consequently, an increase in fracture aperture and permeability occurs, and the flow of the fractured rock mass is enhanced. With the same vertical stress, an increase in horizontal stress and a decrease in shear stiffness lead to a gradual reduction in the linear and nonlinear coefficients of Forchheimer’s law. Specifically, the influence of the lateral pressure coefficient on the linear coefficient is greater than that on the nonlinear coefficient.

基于 XFEM 方法的离散断裂网络剪切过程中的非线性流动研究
为了描述断裂岩体的特征,利用自行开发的程序生成断裂网络。在扩展有限元分析的基础上,建立了考虑剪切扩张效应的非线性流动模型,并提出了模拟断裂岩体在剪切过程中非线性流动的数值求解方法。等值线图揭示了裂缝内水压和水流分布的明显规律。横向压力系数的降低和节理剪切刚度的增加有助于水压梯度的更均匀分布。在相同的垂直应力下,提高横向压力系数或降低剪切刚度会对裂缝产生更明显的剪切扩张效应。因此,裂隙孔径和渗透率增加,裂隙岩体的流动性增强。在垂直应力相同的情况下,水平应力的增加和剪切刚度的减小会导致福赫海默尔定律的线性和非线性系数逐渐减小。具体来说,横向压力系数对线性系数的影响大于对非线性系数的影响。
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来源期刊
Computers and Geotechnics
Computers and Geotechnics 地学-地球科学综合
CiteScore
9.10
自引率
15.10%
发文量
438
审稿时长
45 days
期刊介绍: The use of computers is firmly established in geotechnical engineering and continues to grow rapidly in both engineering practice and academe. The development of advanced numerical techniques and constitutive modeling, in conjunction with rapid developments in computer hardware, enables problems to be tackled that were unthinkable even a few years ago. Computers and Geotechnics provides an up-to-date reference for engineers and researchers engaged in computer aided analysis and research in geotechnical engineering. The journal is intended for an expeditious dissemination of advanced computer applications across a broad range of geotechnical topics. Contributions on advances in numerical algorithms, computer implementation of new constitutive models and probabilistic methods are especially encouraged.
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