Mathematical model of methane driven by hydraulic fracturing in gassy coal seams
During hydraulic fracturing in gassy coal, methane is driven by hydraulic fracturing. However, its mathematical model has not been established yet. Based on the theory of ‘dual-porosity and dual-permeability’ fluid seepage, a mathematical model is established, with the cleat structure, main hydrauli...
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| Format: | Article |
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SAGE Publishing
2020-05-01
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| Series: | Adsorption Science & Technology |
| Online Access: | https://doi.org/10.1177/0263617420919247 |
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| author | Weiyong Lu Bingxiang Huang |
| author_facet | Weiyong Lu Bingxiang Huang |
| author_sort | Weiyong Lu |
| collection | DOAJ |
| description | During hydraulic fracturing in gassy coal, methane is driven by hydraulic fracturing. However, its mathematical model has not been established yet. Based on the theory of ‘dual-porosity and dual-permeability’ fluid seepage, a mathematical model is established, with the cleat structure, main hydraulic fracture and methane driven by hydraulic fracturing considered simultaneously. With the help of the COMSOL Multiphysics software, the numerical solution of the mathematical model is obtained. In addition, the space–time rules of water and methane saturation, pore pressure and its gradient are obtained. It is concluded that (1) along the direction of the methane driven by hydraulic fracturing, the pore pressure at the cleat demonstrates a trend of first decreasing and later increasing. The pore pressure gradient exhibits certain regional characteristics along the direction of the methane driven by hydraulic fracturing. (2) Along the direction of the methane driven by hydraulic fracturing, the water saturation exhibits a decreasing trend; however, near the cleat or hydraulic fracture, the water saturation first increases and later decreases. The water saturation in the central region of the coal matrix block is smaller than that of its surrounding region, while the saturation of water in the entire matrix block is greater than that in the cleat or hydraulic fracture surrounding the matrix block. The water saturation at the same space point increases gradually with the time progression. The space–time distribution rules of methane saturation are contrary to those of the water saturation. (3) The free methane driven by hydraulic fracturing includes the original free methane and the free methane desorbed from the adsorption methane. The reduction rate of the adsorption methane is larger than that of free methane. |
| format | Article |
| id | doaj-art-b400e2c96186421fbb702b8f4939d789 |
| institution | Kabale University |
| issn | 0263-6174 2048-4038 |
| language | English |
| publishDate | 2020-05-01 |
| publisher | SAGE Publishing |
| record_format | Article |
| series | Adsorption Science & Technology |
| spelling | doaj-art-b400e2c96186421fbb702b8f4939d7892025-02-03T10:07:40ZengSAGE PublishingAdsorption Science & Technology0263-61742048-40382020-05-013810.1177/0263617420919247Mathematical model of methane driven by hydraulic fracturing in gassy coal seamsWeiyong LuBingxiang HuangDuring hydraulic fracturing in gassy coal, methane is driven by hydraulic fracturing. However, its mathematical model has not been established yet. Based on the theory of ‘dual-porosity and dual-permeability’ fluid seepage, a mathematical model is established, with the cleat structure, main hydraulic fracture and methane driven by hydraulic fracturing considered simultaneously. With the help of the COMSOL Multiphysics software, the numerical solution of the mathematical model is obtained. In addition, the space–time rules of water and methane saturation, pore pressure and its gradient are obtained. It is concluded that (1) along the direction of the methane driven by hydraulic fracturing, the pore pressure at the cleat demonstrates a trend of first decreasing and later increasing. The pore pressure gradient exhibits certain regional characteristics along the direction of the methane driven by hydraulic fracturing. (2) Along the direction of the methane driven by hydraulic fracturing, the water saturation exhibits a decreasing trend; however, near the cleat or hydraulic fracture, the water saturation first increases and later decreases. The water saturation in the central region of the coal matrix block is smaller than that of its surrounding region, while the saturation of water in the entire matrix block is greater than that in the cleat or hydraulic fracture surrounding the matrix block. The water saturation at the same space point increases gradually with the time progression. The space–time distribution rules of methane saturation are contrary to those of the water saturation. (3) The free methane driven by hydraulic fracturing includes the original free methane and the free methane desorbed from the adsorption methane. The reduction rate of the adsorption methane is larger than that of free methane.https://doi.org/10.1177/0263617420919247 |
| spellingShingle | Weiyong Lu Bingxiang Huang Mathematical model of methane driven by hydraulic fracturing in gassy coal seams Adsorption Science & Technology |
| title | Mathematical model of methane driven by hydraulic fracturing in gassy coal seams |
| title_full | Mathematical model of methane driven by hydraulic fracturing in gassy coal seams |
| title_fullStr | Mathematical model of methane driven by hydraulic fracturing in gassy coal seams |
| title_full_unstemmed | Mathematical model of methane driven by hydraulic fracturing in gassy coal seams |
| title_short | Mathematical model of methane driven by hydraulic fracturing in gassy coal seams |
| title_sort | mathematical model of methane driven by hydraulic fracturing in gassy coal seams |
| url | https://doi.org/10.1177/0263617420919247 |
| work_keys_str_mv | AT weiyonglu mathematicalmodelofmethanedrivenbyhydraulicfracturingingassycoalseams AT bingxianghuang mathematicalmodelofmethanedrivenbyhydraulicfracturingingassycoalseams |