Experimental and Theoretical Research on the Bearing Mechanism of Group Anchors in Sand

Wang, Xuejiu; Zhang, Xin

doi:10.1155/2022/6448589

Geofluids

2022

DOI: 10.1155/2022/6448589

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Experimental and Theoretical Research on the Bearing Mechanism of Group Anchors in Sand

Xuejiu Wang

Xin Zhang

Abstract: To investigate the bearing mechanism and efficiency of group anchors in sand, upward pulling tests of model group anchors were carried out for different conditions of the sand density, anchor burial depth ratio, and anchor spacing. The results show that the load-displacement relationships for group anchors is similar to that for single anchors, both being nonlinear for the same relative density and embedment ratio. The load-carrying capacity of group anchors is not a simple superposition of the capacities of t… Show more

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Cited by 44 publications

References 18 publications

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Direct tensile damage process of calcite vein shale based on 3D CT reconstruction

Meng,

Wu,

Lan

et al. 2024

Energy Science & Engineering

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From core observations of shales of the Niutitang formation in the northern part of Guizhou Province, China, calcite was often found to act as a natural fracture filler and affect the extension of fractures in hydraulic fracturing. Therefore, it is crucial to understand the tensile mechanical behavior of shales by calcite veins. In this paper, by computed tomography scanning of shales containing calcite veins of different dip angles from the Niutitang formation, a three‐dimensional numerical model reflecting the internal fine structure of the shale was constructed. Direct tensile numerical simulations were carried out to investigate the effect of calcite veins at different angles on the fine‐scale damage process and mechanical properties of shale. The experimental results show that the tensile capacity of the shale increases with the increase in calcite veins. Depending on the dip angle of the calcite vein, the damage pattern of the shale is divided into three types of damage: pull‐off damage along the calcite vein, jagged damage, and horizontal damage perpendicular to the loading method. At high dip angles, the shale damage is more intense and the fracture network more complex. The temporal and spatial characteristics of the acoustic emissions provide a good indication of the microscopic behavior of the shale specimens during the damage process. The box dimension method was used to calculate the fractal dimension of the shale specimens at the final damage, and it was found that the damage was more intense and the fracture network was more complex at high dip angles, and there was an angular threshold.

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Direct tensile damage process of calcite vein shale based on 3D CT reconstruction

Meng,

Wu,

Lan

et al. 2024

Energy Science & Engineering

View full text Add to dashboard Cite

show abstract

Research on the impact of pre‐existing geological fractures on hydraulic fracturing in high in situ stress environments

Chang,

Qiu,

et al. 2024

Energy Science & Engineering

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The formation of complex fracture network is a difficult problem in the process of deep rock reservoir reconstruction, and the key to the generation of intricate fracture systems in deep reservoirs is to communicate more pre‐existing fractures through hydraulic fracturing, so as to enhance oil recovery. At present, there are few studies on the interactions of hydraulic fractures with pre‐existing fractures under high stress. Therefore, this research studied the influence of the number of pre‐existing fractures on the characteristics of hydraulic fractures by using advanced hydraulic fracturing instruments, and then analyzed the characteristics of hydraulic fractures under different pre‐existing fracture number based on three‐dimensional topography scanning technology and three‐dimensional square box fractal dimension calculation method. Based on the three‐dimensional finite element discrete element method, further research is carried out. The laboratory test findings indicated that the increase of pre‐existing fractures will make the pump pressure curve more stable during the test, and will significantly improve the roughness of hydraulic fractures. The numerical simulation indicated that as the quantity of pre‐existing fractures grows, the fracture area and width also increase, and in instances of a substantial quantity of pre‐existing fractures, the hydraulic fractures are prone to bifurcation, which contributes to the development of intricate fracture networks. With the increase of natural fracture angle, the fracture width decreased, but the fracture area increased. In this study, the influence of the number of pre‐existing fractures on hydraulic fracturing was studied through laboratory tests and numerical simulations, which provided theoretical reference for engineering practice.

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Study on the Method of Pressure Relief and Energy Absorption for Protecting Roadway Under Thick and Hard Roof

Yang

Song

et al. 2023

Rock Mech Rock Eng

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Experimental and Theoretical Research on the Bearing Mechanism of Group Anchors in Sand

Cited by 44 publications

References 18 publications

Direct tensile damage process of calcite vein shale based on 3D CT reconstruction

Direct tensile damage process of calcite vein shale based on 3D CT reconstruction

Research on the impact of pre‐existing geological fractures on hydraulic fracturing in high in situ stress environments

Study on the Method of Pressure Relief and Energy Absorption for Protecting Roadway Under Thick and Hard Roof

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