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- Title
Nonlinear Flow Model for Rock Fracture Intersections: The Roles of the Intersecting Angle, Aperture and Fracture Roughness.
- Authors
Liu, Jie; Wang, Zhechao; Qiao, Liping; Guo, Jiafan; Li, Wei
- Abstract
Fracture intersections are the main components of fracture networks with significant effects on the distribution of flow velocity and fluid pressure near the intersection. A nonlinear flow model for fracture intersections correlating to geometric parameters of two-dimensional fracture intersections was proposed, which was applicable to different flow patterns in fracture intersections. A total of 68 fracture intersection models were established and simulated. By fitting these calculated results, regression functions in terms of each kind of geometric parameter were obtained to determine nonlinear coefficients. Through independent and comprehensive analysis of the influence of geometric parameters on flow characteristics, the quantitative relationships between the nonlinear coefficients of the fracture intersection flow model and multiple geometric parameters, such as the intersecting angle (θ), aperture (e), and roughness, were obtained. The parametric expressions of nonlinear flow models were verified by flow experiments of typical fracture intersections and simulated cases with complicated combinations of geometric parameters. It was proven that the parametric expressions of nonlinear flow models were capable of describing the nonlinear flow through fracture intersections. The results of this study show that fracture intersections have an obvious influence on the flow characteristics of different flow paths, which indicates that the influence of fracture intersections can enhance the hydraulic heterogeneity of fractured rock and need to be considered in the flow analysis of fracture networks. Highlights: A nonlinear flow model for fracture intersections of two-dimensional fracture intersections was proposed. Quantitative relationships between the nonlinear coefficients and geometric parameters of the fracture intersections were obtained. Flow experiments of typical fracture intersections were carried out. The parametric expressions of nonlinear flow models were verified by flow experiments and simulations of complicated cases.
- Subjects
ROCK deformation; FLUID pressure; FLOW simulations; HYDRAULIC fracturing; FLUID flow; GEOMETRIC analysis
- Publication
Rock Mechanics & Rock Engineering, 2022, Vol 55, Issue 4, p2385
- ISSN
0723-2632
- Publication type
Article
- DOI
10.1007/s00603-022-02784-0