2023
DOI: 10.1007/s11053-023-10245-w
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Quantifying and Controller Determination of Shale Matrix Compressibility: Implications for Pore Structure and Gas Flow Behavior Analyses

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Cited by 5 publications
(4 citation statements)
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“…18 change of pore structure during matrix compression can be solved by using the fractal theory. 20 The high-temperature and high-pressure effects caused by magma intrusion can increase the degree of metamorphism of coal seams, change the coal quality, and alter the pore and fissure structure of coal seams. 21,22 The mechanism of geochemical and petrographic response to magmatic heat in Pennsylvanian coals of the Illinois Basin was evaluated by previous authors, who showed a decrease in volatiles, N, S, and O and an increase in fixed carbon, C, and ash content in the coals.…”
Section: Introductionmentioning
confidence: 99%
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“…18 change of pore structure during matrix compression can be solved by using the fractal theory. 20 The high-temperature and high-pressure effects caused by magma intrusion can increase the degree of metamorphism of coal seams, change the coal quality, and alter the pore and fissure structure of coal seams. 21,22 The mechanism of geochemical and petrographic response to magmatic heat in Pennsylvanian coals of the Illinois Basin was evaluated by previous authors, who showed a decrease in volatiles, N, S, and O and an increase in fixed carbon, C, and ash content in the coals.…”
Section: Introductionmentioning
confidence: 99%
“…Some scholars have also used fractal theory to solve the effect of moisture on the pore structure of shale . Meanwhile, the change of pore structure during matrix compression can be solved by using the fractal theory …”
Section: Introductionmentioning
confidence: 99%
“…Pore heterogeneity significantly impacts the storage conditions and flow behaviors of oil and gas . Shale oil and gas recovery would alter the reservoir pressure, inducing response in matrix volumes and pore structures, which in turn determines the matrix permeability and seepage capacity of shale reservoirs. , The volumetric response in the shale matrix is not directly accessible but can be estimated through matrix compressibility. Matrix compressibility serves not only to predict dynamic permeability during extraction but is also closely associated with shale oil and gas production and CO 2 -EO/GR effectiveness . Thus, matrix compressibility and pore heterogeneity are the critical properties of shale reservoirs, yet limited attention has been paid to their quantitative characterization and geological governing factors.…”
Section: Introductionmentioning
confidence: 99%
“…Li et al [12] analyzed the microporous structure of a prominent coal seam in Guizhou, and its influence on gas flow characteristics, via a high-pressure mercury pressure experiment combined with fractal theory; they pointed out that the widely developed micropores of the prominent coal seam were an important cause of the coal seam outburst. Zhang et al [13] found that when porosity is tested using a high-pressure mercury experiment, the high pressure leads to matrix compression, and pore system redistribution increases the heterogeneity of pore structure. Yue et al [14] studied the pore structure of different types of coal using liquid nitrogen adsorption and mercury pressure.…”
Section: Introductionmentioning
confidence: 99%