| CPC E21B 43/006 (2013.01) [E21B 34/066 (2013.01); E21B 43/1185 (2013.01); E21B 43/248 (2013.01); E21B 43/263 (2013.01); E21B 49/00 (2013.01); G01N 33/0027 (2013.01); E21B 7/046 (2013.01)] | 9 Claims |
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1. A method for increasing permeability by a synergetic cracking formed by hydraulic fracturing and in-situ combustion and explosion of methane, comprising:
performing horizontal drilling construction on an area to be constructed, and then making fractures around a wall of a horizontal borehole by using an energy-gathered perforating; continuing to expand fractures around the horizontal borehole injecting fracturing fluids of different relative viscosities at different stages, and then performing methane extraction after a fracturing fluid is discharged; after the methane gas is reduced, performing fracturing by in-situ combustion and explosion of methane involved in the horizontal borehole; that is, after a concentration of methane in an entire space of a pipeline and the fractures during an extraction process is reduced to a detonation concentration, an extraction operation is stopped, methane desorbed in situ from reservoir fractures is ignited by a detonation device which includes an electric spark igniter to induce a combustion and explosion after the combustion and explosion, continuing to expand the fractures in the horizontal borehole so that the methane continues to seep out, and then continuing to perform extraction; repeating a fracturing by the combustion and explosion and the extraction operation, thereby achieving the permeability increasing by a synergetic cracking formed by the combustion and explosion, and enhancing a mining effect of a shale gas, and wherein the specific steps are as follows:
(1) after determining a fractured interval and a fractured position in a shale reservoir, drilling a vertical shaft toward a pre-fractured interval in the shale reservoir from a ground, drilling a horizontal gas well with a steering to reach a pre-fractured position, arranging a casing in a horizontal gas well to form a casing string, and then arranging a pumping pipeline for fracturing fluid and a methane extraction pipeline in the vertical shaft connected to a horizontal gas well, wherein a methane gas concentration and flow detector is provided on the methane extraction pipeline;
(2) a perforating gun loaded with a perforating bullet is lowered to the pre-fractured position in the shale reservoir through the casing string to make fractures by energy-gathered perforating, so as to form a large number of conical thorn-shaped pore passages in a compact shale reservoir;
(3) taking out the perforating gun, injecting the fracturing fluid mixed with a combustion improver into the casing by utilizing a fracturing fluid storage tank through the pumping pipeline for fracturing fluid, the fracturing fluid performing hydraulic fracturing on the shale reservoir through perforation holes of the casing, fracturing a reservoir by the fracturing fluid along the conical thorn-shaped pore passage so that a conical thorn-shaped pore passage is further opened and expanded into the main fracture, performing tensile damage by the fracturing fluid, at a tip of the conical thorn-shaped pore passage formed by a perforation hole, thereby constructing a main channel for the flow of methane and other fluids to the casing; fracturing around the main fracture to form secondary fractures by hydraulic fracturing, when the pumping pressure of the fracturing fluid is reduced to 30% of a peak pressure, a pumping operation is stopped, and the fracturing fluid is returned and discharged after a hydraulic fracturing process is finished, a combustion improver retains in the fractures where a combustion improver enters into to play a function for auxiliary support;
(4) after the return and discharge of the fracturing fluid is finished, a desorption amount of methane gas from the shale reservoir is increased, at this time, a first solenoid valve I is closed and a second solenoid valve II is opened, a methane extraction pump is started to perform methane extraction through the methane extraction pipeline, a methane gas concentration and the gas flow rate in the extraction pipeline are monitored in real time by using a methane gas concentration and flow detector arranged on the methane extraction pipeline; when the methane gas concentration and flow detector detects that the extracted methane gas flow rate is stable and kept above a preset value, it is determined that at this time, it is a stable extraction stage, and the methane gas concentration currently monitored is considered to be the same as the gas concentration desorbed in real time; at this moment, the casing string is used as a gas extraction pipeline at the horizontal gas well section;
(5) when the methane gas concentration and flow detector monitors that the methane concentration changes during an extraction process in real time, stopping the extraction operation, lowering the detonation device to a wellhead of the horizontal gas well, and igniting the methane in situ desorbed from the reservoir fractures the detonation device to induce combustion and explosion, after the concentration of the methane gas in the entire space of the pipeline and the fractures is reduced to the detonation concentration during the extraction process, according to a natural attenuation characteristic of the gas concentration in the extraction borehole, the detonation device with an electric spark igniter, a transmission cable and a ground intelligent controller, a process of igniting to induce combustion and explosion is that the ground intelligent controller closes the first solenoid valve I and the second solenoid valve II, the current flows into the electric spark igniter through the transmission cable to generate electric sparks and induce methane deflagration; and
(6) after a deflagration, a new fracture network which is more complex is formed in a horizontal gas well to facilitate desorption and migration of methane gas, so that the methane gas concentration in the horizontal gas well is increased again, at this time, the second solenoid valve II is opened again to continue gas extraction; after the methane gas concentration is reduced again, the step (5) is repeated to perform fracturing by combustion and explosion of methane again, steps (1) through (5) are repeated as such to realize the permeability increasing of shale reservoir by the synergetic cracking formed by hydraulic fracturing and in-situ combustion and explosion of methane at multiple stages, thus a three-dimensional fracture network is constructed step by step, more methane occurring in the reservoir is desorbed and collected into the casing string, and the methane is conveyed to a place above a well through the methane extraction pipeline, a fracturing and extraction operation of an interval is completed if an increase rate of a methane extraction amount is lower than 10%.
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