A peridynamics approach modeling gas flow in porous media with damaged regions

IF 2.9 2区 数学 Q1 MATHEMATICS, APPLIED Applied Mathematics Letters Pub Date : 2024-10-20 DOI:10.1016/j.aml.2024.109341
Xu Guo , Xiaolin Liao , Xiangcheng Zheng , Suifu Cheng
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Abstract

The study of gas flow within porous media, particularly those characterized by complex pore-fracture networks, is critical for applications in fields such as shale gas engineering, gas extraction, and hydrogeology. This paper proposes a convenient and novel peridynamics approach to describe gas flow behavior in fracture regions and transition regions between fractured and intact regions in porous media, where the bonds naturally describe the interactions between material points in damaged areas. For implementation, we interpolate the permeability of the bonds in the transition region by using local damage values, and adopt a meshfree discretization approach that does not require additional mesh refinement for damaged or fractured regions. Numerical examples are provided and compared with the traditional finite element method to verify the accuracy and effectiveness of the proposed method.
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用周动力学方法模拟多孔介质中带有损伤区域的气体流动
研究多孔介质(尤其是以复杂孔隙-断裂网络为特征的多孔介质)中的气体流动对于页岩气工程、天然气开采和水文地质学等领域的应用至关重要。本文提出了一种便捷而新颖的周动力学方法,用于描述多孔介质中断裂区域以及断裂区域和完整区域之间过渡区域的气体流动行为,其中的键自然描述了受损区域中材料点之间的相互作用。在实施过程中,我们使用局部损坏值对过渡区域的键的渗透性进行内插,并采用无网格离散化方法,无需对损坏或断裂区域进行额外的网格细化。我们提供了数值示例,并与传统的有限元方法进行了比较,以验证所提方法的准确性和有效性。
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来源期刊
Applied Mathematics Letters
Applied Mathematics Letters 数学-应用数学
CiteScore
7.70
自引率
5.40%
发文量
347
审稿时长
10 days
期刊介绍: The purpose of Applied Mathematics Letters is to provide a means of rapid publication for important but brief applied mathematical papers. The brief descriptions of any work involving a novel application or utilization of mathematics, or a development in the methodology of applied mathematics is a potential contribution for this journal. This journal''s focus is on applied mathematics topics based on differential equations and linear algebra. Priority will be given to submissions that are likely to appeal to a wide audience.
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