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Experiment and Simulation for Controlling Propagation Direction of Hydrofracture By Multi-Boreholes Hydraulic Fracturing 被引量:1
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作者 Chenpeng Song Yulong Chen Jiehao Wang 《Computer Modeling in Engineering & Sciences》 SCIE EI 2019年第9期779-797,共19页
Hydraulic fracturing has been applied to enhance CBM production and prevent gas dynamical hazard in underground coal mines in China.However,affected by in situ stress orientation,hydrofracture can hardly continuously ... Hydraulic fracturing has been applied to enhance CBM production and prevent gas dynamical hazard in underground coal mines in China.However,affected by in situ stress orientation,hydrofracture can hardly continuously propagate within coal seam but may easily extend to the adjacent roof-floor strata,causing ineffective permeability enhancement in coal seam and increasing the risk of gas transfinite during mining coal.Thus,it is very necessary to artificially control the propagation direction of hydrofracture and make it well-aligned in large scale in coal seam.In this study,a method for controlling propagation direction of hydrofracture by multi-boreholes is investigated by theoretical analysis,laboratory experiment and numerical simulation.And this is followed by an on-site test in an underground coal mine to verify this method.Firstly,stress intensity factor at the hydrofracture tip is analyzed where pore pressure is taken into consideration.Results show that the pore pressure is able to increase the stress intensity factor and reduce hydrofracture propagation pressure.Based on this,a method of hydraulic fracturing using multi-boreholes to control hydrofracture direction is proposed.Afterwards,laboratory experiments are conducted to explore the impact of pore pressure on hydrofracture propagation.The experimental results agree with the theoretical analysis very well.Later on,a series of numerical simulations are performed to examine the influence of principal stress difference,the angle between assistance drillholes and the maximum principal stress,and the fluid pressure of the assistance drillholes on hydrofracture propagation.Finally,an on-site test in an underground coalmine is practiced where this proposed method is used to enhance the CBM production.Results show the scope of the hydro-fracture resulting from the multi-boreholes hydraulic fracturing method increases 2.7 times compared with that of conventional hydraulic fracturing.And gas production rate also increases 4.1 times compared with that of conventional hydraulic fracturing and 12.3 times compared with direct borehole extraction without fracturing. 展开更多
关键词 Coalbed methane underground coalmine hydraulic FRACTURING PORE pressure multi-borehole
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Prediction of multi-borehole undermine coalbed gas drainage 被引量:1
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作者 ZHANG Zhi-gang 《Journal of Coal Science & Engineering(China)》 2009年第3期295-298,共4页
By analyzing the flow character of a single drainage borehole in its effectingtime and the correlative theory introduced,the reason for 'inflexion' appearance in theflow character curve of the single draining ... By analyzing the flow character of a single drainage borehole in its effectingtime and the correlative theory introduced,the reason for 'inflexion' appearance in theflow character curve of the single draining borehole in a multi-borehole was studied.Takingthe theory of permeation fluid mechanics and so on as basis,the coalbed gas flowmodel was set up,and the numerical simulation analyzer was built for undermine gasproducts.With the results from the analyzer,the gas capacity could be calculated underdifferent conditions and comparisons made with the site measurement data. 展开更多
关键词 multi-borehole undermine coalbed gas drainage capacity prediction
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