Abstract
In order to improve the permeability of soft coal seams with low intensity and permeability by hydraulic fracturing, an elastoplastic softening damage model of soft coal seams has been established, which takes into consideration the lower elastic modulus and tensile strength and higher pore compressibility and plastic deformation. The model then was implemented to FLAC3D finite difference software to be verified with the on-site results of the Number 2709 coalface in Datong coal mine, China. The modelling results of fracture-influenced radius show good consistency with on-site results. Then the parameters of water injection rate and time on fracture-influenced radius were studied. The results indicate that the fracture-influenced radius increases rapidly with an increased injection rate initially. After reaching the maximum value, fracture-influenced radius decreases slowly with further increase of the injection rate. Finally, it remains constant. The fracture-influenced radius rapidly increases initially at a certain time and then slowly increases with the injection time. The novel model and numerical method could be used to predict the radius of hydraulic fracture-influenced area and choose the suitable injection parameters to help the on-site work more efficiently.
Highlights
Geological conditions of soft coal seams in China are extremely complex, which are frequently associated with lowE intensity, high gas content, and low permeability
Wang et al studied the effects of mechanical parameters on crack propagation radius and different injection rates on crack propagation of coal seam hydraulic fracturing using the discrete element program particle flow code (PFC) 2D
The drilling drainage holes in Number 2709 west coalface, the injection rate decreases to 2 ∗ 10−3 m3/s. is phenomcollapse of the hole and difficulty of gas prepumping often enon indicates the initial fracture begin to generate. e occurred, which posed a serious threat to mine safety
Summary
Geological conditions of soft coal seams in China are extremely complex, which are frequently associated with lowE intensity, high gas content, and low permeability. En the parameters of water injection rate and time on fracture-influenced radius were studied.
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