2023
DOI: 10.1021/acsomega.2c06497
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Experimental Study of the Fracture Network Expansion Mechanism and Three-Dimensional Reconstruction Characteristic of High-Rank Coal in Guizhou Province, China

Abstract: To better understand the fracture propagation characteristics and spatial distribution pattern of a high-rank coal reservoir during hydraulic fracturing, a true triaxial physical simulation device was used to conduct a hydraulic fracturing experiment on large-sized raw coal from Zhijin, Guizhou Province, China. Computed tomography technology was used to scan the three-dimensional morphology of the fracture network before and after fracturing, then AVIZO software was used to reconstruct the internal fractures o… Show more

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“…In addition, permeability stands as the pivotal determinant influencing the extraction of coal-measured gas within reservoirs. The intricate geological characteristics inherent in deep coal measure reservoirs lead to notably diminished coal permeability. , Numerous fracturing tests regrading sandstone, shale, and coal mass have demonstrated that creating complex cracks is critical to enhance the overall permeability of reservoirs. A large number of studies have confirmed the effects of supercritical carbon dioxide (ScCO 2 ) on pore and fracture structures at different scales, confirming that its unique physical and chemical properties enable it to enhance the permeability of coal. , Noteworthy contributions to this field include comparative analysis of shale permeability (φ25 × 50 mm) following ScCO 2 fracturing versus hydraulic fracturing under the same stress conditions . The results show that ScCO 2 -induced fracturing increases the shale permeability by up to three times compared to hydraulic fracturing.…”
Section: Introductionmentioning
confidence: 99%
“…In addition, permeability stands as the pivotal determinant influencing the extraction of coal-measured gas within reservoirs. The intricate geological characteristics inherent in deep coal measure reservoirs lead to notably diminished coal permeability. , Numerous fracturing tests regrading sandstone, shale, and coal mass have demonstrated that creating complex cracks is critical to enhance the overall permeability of reservoirs. A large number of studies have confirmed the effects of supercritical carbon dioxide (ScCO 2 ) on pore and fracture structures at different scales, confirming that its unique physical and chemical properties enable it to enhance the permeability of coal. , Noteworthy contributions to this field include comparative analysis of shale permeability (φ25 × 50 mm) following ScCO 2 fracturing versus hydraulic fracturing under the same stress conditions . The results show that ScCO 2 -induced fracturing increases the shale permeability by up to three times compared to hydraulic fracturing.…”
Section: Introductionmentioning
confidence: 99%