Numerical investigation of a novel hypothesis for fracture termination and crossing, with applications to lost circulation mitigation and hydraulic fracturing

Oyedere, Mayowa; Gray, K. E.; McClure, Mark

doi:10.1016/j.juogr.2016.07.003

Cited by 3 publications

(1 citation statement)

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“…According to the CT test and the nonlinear mechanicsleakage hypothesis, Li et al [9] developed a three-dimensional discontinuous network model and a plastic-nonlinear fracture-leakage-coupled constitutive formula. According to the numerical simulation results, Oyedere et al [10] believe that in low-permeability media, too high a fracturing fluid injection rate will stop the propagation of hydraulic fractures. Based on the elastic damage mechanics, Guo et al [11] studied the influence of multiple factors on the HF crossing the layered rock interface using the numerical simulation method.…”

Section: Introductionmentioning

confidence: 99%

Optimization of Indirect Fracturing Process Parameters Based on Mechanical Properties of Fractured and Low-Permeability Coal

2022

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The coal-bed methane (CBM) resources in soft and low-permeability coals are assumed to be as much as 15 × 1012 m3 in China. Indirect fracturing technology can be an effective method to successfully extract methane within soft coals. The key to the success of this technique is to optimize the parameters, such as water injection flow rate and fracture initiation location, so that the hydraulic fracturing parameters enable the fractures to pass through the interface between coal and rock and propagate sufficiently into the coal. This paper focuses on solving the above problems by focusing on discontinuities and plastic characteristics of soft coals. Voronoi polyhedron was used to simulate the discontinuities of coal, and the constitutive relations of ductile fracture-seepage and elastoplastic damage-seepage are, respectively, given to the discontinuities and coal matrix. A numerical model was established based on the above theory to simulate the effect of stress difference Δσ, coal-rock interface friction coefficient fc,r, water injection flow rate i w , and distance between the well and the interface Dop on indirect fracturing fractures. The results show that the HFs area in the coal is positively correlated with Δσ, fc,r, and i w , and it first increases and then decreases with the decrease of Dop. The above results were applied in the Zhaozhuang mine of Qinshui Basin by optimizing Dop = 1 m and iw = 8 m3/min, so that CBM production has been greatly increased. The results can provide theoretical support for the efficient development of CBM in fractured and low-permeability coal seam areas.

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Section: Introductionmentioning

confidence: 99%