CN112412415A

CN112412415A - Hydraulic punching, freezing fracturing and heat injection stimulation synergistic permeability-increasing pumping-promoting method

Info

Publication number: CN112412415A
Application number: CN202011223126.7A
Authority: CN
Inventors: 袁军伟; 蒋晓改; 支光辉; 李怀珍; 许彦鹏; 岳高伟; 夏静怡; 王遥; 陈立伟; 安丰华
Original assignee: Henan University of Technology
Current assignee: Henan University of Technology
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-02-26
Anticipated expiration: 2040-11-05
Also published as: CN112412415B

Abstract

The method for promoting the permeability increase and the pumping by the cooperation of hydraulic punching, freezing fracturing and heat injection stimulation comprises the following steps of: constructing cross-layer drill holes to the coal body in a bottom plate rock roadway, wherein any two adjacent drill holes are respectively named as a measure hole and an extraction hole, and the two adjacent drill holes are respectively named as a measure hole and an extraction hole; installing an extraction pipe in the drilled hole to seal the hole, wherein the extraction hole is connected with an extraction system; high-pressure water injection is carried out in the measure holes; sealing the extraction pipe in the measure hole by using a special hole sealing device; injecting liquid nitrogen into the measure holes to freeze the coal body, wherein the liquid nitrogen is slowly sublimated into nitrogen under the action of the ground temperature, and the nitrogen can effectively replace and displace gas in the coal body; high-temperature and high-pressure nitrogen is used for high-pressure heat injection on the coal body; and finally, connecting the extraction pipe in the measure hole with an extraction system. The invention has tight hole sealing, can be widely applied to the works of rock cross-cut coal uncovering, fault crossing, excavation working face permeability increasing and pumping promoting and the like, greatly improves the permeability increasing and pumping promoting effects through the construction mode of combining freezing and heat injection, and has wide application prospect.

Description

Hydraulic punching, freezing fracturing and heat injection stimulation synergistic permeability-increasing pumping-promoting method

Technical Field

The invention belongs to the technical field of coal mine safety production, and particularly relates to a method for promoting drainage by hydraulic punching, freeze fracturing and heat injection excitation synergistic permeability increase.

Background

Most coal seams in China have the characteristics of 'three low and one high' (low permeability, low saturation, low reservoir pressure and high metamorphic degree). The low permeability of the coal seam causes difficulty in gas extraction, causes disorder of 'extraction-excavation-extraction' of a mine, forms a major potential safety production hazard, and is a hidden danger of coal mine gas accidents. Therefore, the study of scholars at home and abroad provides hydraulic punching, protective layer mining, CO₂And (3) technical measures for increasing permeability and promoting pumping of coal beds such as phase change fracturing. However, for various reasons, the anti-reflection effect of various technical measures commonly used at present needs to be further improved in terms of technology and economy.

The freezing and cracking phenomena are widely existed in nature, such as the phenomena of damage and destruction of buildings caused by freezing, more loose soil after freezing and the like are common. Inspired by these phenomena, scholars have conducted a great deal of research on the design of foundation engineering of frozen soil layers, and have obtained some beneficial research results. Later, in the oil and gas exploitation process, technicians apply the technology to the field of oil and gas exploitation to increase the permeability of an oil and gas layer, so that the purposes of increasing production and increasing efficiency are achieved, and a good effect is achieved.

Coal is used as a special soft rock, and the purposes of fracturing coal bodies, increasing coal body hole-fractures and improving coal bed permeability can be realized by adopting an ultralow temperature freezing method; therefore, on the basis of freeze fracturing, the coal seam gas extraction effect can be effectively improved by matching with gas extraction measures, the method is very beneficial to solving the problem of disorder of coal seam pumping-digging-mining, is a relatively advanced measure for increasing the permeability of the coal seam and promoting the pumping, and domestic and foreign scholars have conducted beneficial exploration on related contents.

Based on the stable inert gas characteristic of nitrogen, in the field application process of the freeze fracturing technology, liquid nitrogen is generally injected into a coal body, on one hand, after the ultralow-temperature liquid nitrogen is injected into the coal body through the huge frost heaving force caused by liquid-solid phase change of the water body after the water body is injected, the freeze fracturing and permeability increasing pumping promoting effects are achieved on the coal body, on the other hand, after the ultralow-temperature liquid nitrogen is heated and gasified and becomes gaseous, a huge nitrogen partial pressure area (high pressure area) is formed around a measure hole, and a lower gas pressure area (low pressure area) is formed around an adjacent extraction hole, so that a huge pressure difference is formed between the measure hole and the extraction hole, the nitrogen can achieve the gas displacement and replacement effects on gas in the coal body, and the gas extraction effect is further enhanced.

The desorption speed and the extraction effect of the gas in the coal body are closely related to the temperature of the coal body. The related research results show that the temperature of the coal body is increased by 1 ℃, and the gas desorption capacity of the coal body is improved by about 8 percent. Therefore, the coal body gas desorption can be enhanced by heating the coal body, and the gas extraction effect is improved. However, the existing coal body heating technology mostly adopts non-contact heating modes such as infrared and microwave, and although the methods can quickly heat the coal body, the methods have the defects of high attenuation speed, high energy consumption, easy damage, incapability of recycling equipment and the like, and are difficult to popularize and apply in a large range; some researchers also propose that the coal body is heated by injecting superheated water or water vapor into the coal bed, although the coal body can be effectively heated, water lock effect can be formed in pores of the coal body after the water vapor and hot water enter the coal body, desorption of gas in the coal body is inhibited, and gas extraction effect is reduced on the contrary. In addition, when a high-temperature medium is injected into the coal body, the high-temperature medium is oxidized, which may cause ignition of the coal body in the drill hole, thereby raising a new safety problem. Therefore, when a heat injection strengthening and extraction promoting technical measure is adopted, a new heat injection method, a heat injection medium and a heat injection way are urgently needed to be searched, so that the heat injection excitation effect is strengthened, the gas extraction effect is improved, the 'extraction-excavation-extraction' balance problem of a mine is effectively relieved, and the ignition of a drill hole can be avoided.

The nitrogen has good chemical stability, is common inert gas, does not burn and support combustion, is very easy to prepare and has low manufacturing cost. If the nitrogen is heated and then injected into the coal body through the drill hole, the temperature of the coal body can be effectively improved, the excitation effect on the coal body can be enhanced, and the gas extraction effect is enhanced; the high nitrogen gas partial pressure can form replacement and displacement effects on the coal gas, so that the gas extraction effect is further enhanced; and the inertia characteristic of the nitrogen can prevent the fire of the drill hole and avoid the accidents of fire, gas explosion, coal dust explosion and the like. Therefore, the method is economically feasible by using high-temperature nitrogen as a medium to carry out coal bed drilling heat injection excitation strengthening pumping promotion.

The method for heating the coal body medium injected underground is generally carried out by adopting methods such as a heating cable, a resistance wire and the like. However, in the method, the heating cable, the resistance wire and the like are directly exposed in the air or coal, so that the danger of gas explosion and coal dust explosion is caused in the atmosphere with high gas concentration and high coal dust concentration in the coal mine, and malignant accidents are easily caused.

For low-permeability coal seams, particularly outburst coal seams, coal bodies are soft, the air permeability is poor, and extraction is difficult. The cross-layer drilling hydraulic punching technology has the characteristics of high safety, long extraction time, good pressure relief effect and the like in rock roadway construction, and is widely applied. But the popularization and application of the technology are limited to a certain extent due to the problems of huge hydraulic punching engineering quantity, serious spraying holes, frequent over-limit gas and the like; meanwhile, the coal body pressure relief effect in the area far away from the hydraulic punching area is poor, the extraction effect is not ideal, extraction blank zones exist, and the extraction blank zones can be eliminated only by continuously implementing hydraulic punching measures, so that the punching and drilling engineering quantity is further increased, and the risk of the problems of over-limit of spraying holes, gas and the like is increased. Therefore, a new technical measure is also needed to be found, and the problems are effectively solved on the premise of ensuring the coal seam gas extraction effect and not increasing the engineering quantity.

By combining the technologies, the coal body can be frozen and fractured by taking the measures of freezing and fracturing the coal body and heat injection excitation in cooperation with hydraulic punching, so that the air permeability of the coal body is effectively increased, the coal body is excited at high temperature, the gas desorption is enhanced, and meanwhile, the coal body can be pyrolyzed at high temperature, thereby being beneficial to the gas extraction work; moreover, because the liquid nitrogen is sublimated into gaseous nitrogen and the injected high-temperature and high-pressure nitrogen can form a high-pressure area around the measure hole, the high-pressure area has high nitrogen gas partial pressure, coal gas can be replaced and displaced to a far hydraulic punching hole drilling affected area (low-pressure area), and under the action of strong pressure difference between the measure hole and the extraction hole, a strong gas replacement and displacement effect is formed, so that the gas extraction effect can be further enhanced, the hydraulic punching engineering quantity can be greatly reduced, and the problems of spray holes, gas overrun and the like can be reduced. The technical measures of borehole freezing fracturing-heat injection stimulation and hydraulic punching can effectively improve the coal seam gas extraction effect, is very beneficial to solving the problem of 'pumping-digging-mining' imbalance of a mine, and is a relatively advanced measure for increasing the permeability of the coal seam and promoting the extraction.

In the processes of freeze fracturing-heat injection stimulation coal body strengthening anti-reflection and extraction promotion and daily gas extraction, hole sealing work is very important basic work; the quality of hole sealing directly influences the coal cracking degree and the gas extraction effect, and directly influences the economic benefit of the technology. The quality of hole sealing is mainly controlled by the performance of the hole sealing device and a hole sealing process method; however, the existing hole sealing device and hole sealing method are designed under the normal temperature condition, and the problems of hole sealing material fracture, hole drilling air leakage, poor gas extraction effect and the like are easily caused under the actions of ultralow temperature liquid nitrogen freezing and fracturing, high temperature and high pressure nitrogen injection excitation and enhanced pumping promotion, and the requirements of ultralow temperature liquid nitrogen, high temperature and high pressure nitrogen injection and gas extraction work under the normal temperature are hardly considered. If the extraction drill hole under the normal temperature condition is respectively constructed and sealed with the ultralow temperature liquid nitrogen freezing fracturing and high temperature and high pressure nitrogen injection drill hole, the drilling engineering amount can be increased, the extraction engineering cost and the sealing cost are increased, and the requirements of the field work of the coal mine can not be met no matter from the technical aspect or the economic aspect. Therefore, a method for promoting the extraction by the synergy of hydraulic punching, freezing fracturing and heat injection stimulation and permeability increase is also needed, and the requirements of ultralow-temperature liquid nitrogen freezing fracturing, high-temperature high-pressure nitrogen stimulation permeability increase promotion extraction, normal-temperature gas extraction and reusable hole packer can be met at the same time.

Disclosure of Invention

The invention aims to solve the defects in the prior art, provides a method for promoting extraction by synergy of hydraulic punching, freezing fracturing and heat injection stimulation, and aims to solve the problems that a conventional hole packer and a hole sealing method are low and unsafe in coal body freezing fracturing and heat injection efficiency, the conventional hole packer cannot be applied to high-temperature conditions, the hole sealing effect is poor, the extraction effect is poor due to simple hydraulic punching, and the like, so that the purposes of improving the coal body freezing fracturing degree, strengthening the gas desorption of the heat injection stimulation coal body, promoting extraction by permeability increase and improving the coal bed gas extraction effect are achieved.

In order to solve the technical problems, the invention adopts the following technical scheme: a method for promoting the permeability increase and pumping by the cooperation of hydraulic punching, freezing fracturing and heat injection stimulation comprises the following steps,

(1) operating a mechanical drilling machine to construct cross-layer drill holes to the coal body in a bottom plate rock roadway, wherein all drilling hole end points are arranged in a grid-shaped array, the distance between every two adjacent drilling hole end points is 8-10m, and any two adjacent drilling holes are named as a measure hole and an extraction hole respectively;

(2) performing hydraulic punching on the extraction hole, performing conventional hole sealing by a two-plugging one-injection process after all drill holes are constructed after the hydraulic punching construction is finished, wherein the length of the sealed hole section of each drill hole is not less than 5 m; after the hole sealing material is solidified, connecting a first extraction pipe in an extraction hole with an underground extraction system of a coal mine to extract gas;

(3) connecting the outer end of a second extraction pipe in the measure hole with a first grouting pump, starting the first grouting pump to perform high-pressure water injection on coal around the measure hole, wherein the water pressure of the water injection is not less than 10 MPa; a large number of pores and a plurality of main cracks are generated around the measure holes under the action of strong water pressure, and a water body enters the coal bodies around and deep in the measure holes along the pores and the cracks;

(4) after the high-pressure water injection is finished, the first grouting pump is disconnected from the second extraction pipe in the measure hole, accumulated water in the measure hole is discharged, and the inner wall of the second extraction pipe in the hole opening 8m away is cleaned; at the moment, the coal around and deep in the measure holes is fully wetted;

(5) conveying the special hole packer into a second extraction pipe to a preset depth, and sealing the hole of the second extraction pipe;

(6) connecting the special hole packer with a liquid nitrogen supply system, and injecting liquid nitrogen into the measure hole through the special hole packer to freeze coal around the measure hole;

(7) after the nitrogen injection is finished, slowly sublimating liquid nitrogen into nitrogen under the action of the ground temperature, and continuously performing gas extraction operation on the nitrogen adjacent to the extraction hole of the measure hole in the process; the volume expansion of the sublimed nitrogen is more than 500 times of that of injected liquid nitrogen, strong nitrogen partial pressure, namely a high-pressure area, is formed around the measure hole, and lower gas pressure, namely a low-pressure area, is formed around the extraction hole; under the action of strong pressure difference between the measure hole and the extraction hole, the sublimated nitrogen can effectively replace and displace gas in the coal body, and the coal bed gas is extracted under the action of extraction negative pressure of the adjacent extraction hole, so that the gas extraction effect is enhanced;

(8) the liquid nitrogen is completely sublimated for 48 hours, and a liquid nitrogen supply system is separated from the special hole packer; then connecting the nitrogen gas supply and heating system with the special hole packer, and injecting high-temperature and high-pressure nitrogen gas into the measure hole from the special hole packer by the nitrogen gas supply and heating system;

(9) high-temperature and high-pressure nitrogen is used for injecting heat to the coal body at high pressure, and the pressure of the nitrogen is not less than 2 MPa; the nitrogen is transported to the far position of the measure hole under the action of high pressure, the coal body is continuously heated in the transportation process, the gas desorption of the coal body is promoted, the coal body is pyrolyzed, the pores of the coal body are increased, the gas permeability of the coal body is improved, and the gas extraction is strengthened; meanwhile, the adjacent extraction holes are used for normally extracting gas all the time, so that the escaped gas of the heated coal body is ensured to be timely extracted, and the gas is prevented from hurting people;

(10) after injecting high-temperature and high-pressure nitrogen into the measure hole to heat the coal body for 4 hours, stopping the heat injection strengthening pumping promotion work of the coal body, then taking out the special hole packer from the second pumping pipe, and continuously reusing the special hole packer next time;

(11) and connecting the second extraction pipe in the measure hole with an extraction system to perform gas extraction work, and further strengthening the gas extraction effect.

The special hole packer comprises a water tank, a second grouting pump, a grouting hose, a first bag, a second bag, a central nitrogen injection pipe and a hole sealing pipe, wherein the central nitrogen injection pipe and the hole sealing pipe are parallel to a second extraction pipe, the first bag and the second bag are fixedly arranged on the central nitrogen injection pipe along the same central line, the second bag is positioned on the inner side of the first bag, the outlet end of the hole sealing pipe penetrates through the first bag to extend into the second bag, a through hole communicated with the inside of the first bag is formed in the hole sealing pipe, a closed cavity is formed between the first bag and the second bag in the second extraction pipe, a one-way valve is arranged on the second bag, the inlet of the one-way valve is communicated with the closed cavity, the outlet of the one-way valve is positioned on the inner side of the second bag, and an explosion valve is arranged between the first bag and the second bag on the hole sealing pipe; the central nitrogen injection pipe, the hole sealing pipe and the one-way valve are hermetically connected with the joint of the second bag, and the central nitrogen injection pipe, the hole sealing pipe and the joint of the first bag are hermetically connected; the outer end part of the central nitrogen injection pipe is provided with a nitrogen injection valve, and the outer end part of the hole sealing pipe is provided with a hole sealing valve; the two ends of the grouting hose are respectively connected with the outer end of the hole sealing pipe and the water tank, and the second grouting pump is arranged on the grouting hose.

Liquid nitrogen feed system includes the liquid nitrogen container, annotates liquid hose and annotates the liquid pump, annotates the liquid hose both ends and is connected with the outer end of liquid nitrogen container and central notes nitrogen pipe respectively, and the notes liquid pump setting is on annotating the liquid hose, and the liquid nitrogen container handstand sets up on first support, and the jar mouth department of liquid nitrogen container is equipped with the liquid nitrogen ooff valve.

The nitrogen gas supply and heating system comprises a nitrogen gas bottle, a heat injection pump, a nitrogen gas heating device and a gas injection hose, wherein two ends of the gas injection hose are respectively connected with the outer ends of the nitrogen gas bottle and the central nitrogen injection pipe, the nitrogen gas heating device and the heat injection pump are arranged on the gas injection hose, the nitrogen gas heating device is arranged between the heat injection pump and the nitrogen gas bottle, the nitrogen gas bottle is arranged on the second support in an inverted mode, and a nitrogen gas switch valve is arranged at the tank opening of the nitrogen gas bottle.

The nitrogen heating device comprises a heating box with a cuboid structure, an air inlet and an air outlet which are connected with a gas injection hose are respectively arranged on two opposite side surfaces of the front side and the back side of the heating box, a three-dimensional net cage structure is arranged in the heating box, fixing rings for fixing the three-dimensional cage structure are respectively arranged on the left side box wall and the right side box wall of the heating box, the three-dimensional net cage structure is formed by fixedly connecting a plurality of heat conduction pipes which are arranged in a criss-cross mode, electric heating wires and insulating heat conduction oil are arranged in the heat conduction pipes, an upper wiring terminal and a lower wiring terminal are respectively arranged above and below the three-dimensional net cage structure in the heating box, the upper ends and the lower ends of all the electric heating wires are respectively connected with a lead wire, the upper lead wire and the lower lead;

the wall of the heating box is of a three-layer structure, the outermost layer and the innermost layer are respectively formed by welding steel plates, and the middle interlayer is filled with glass fiber heat-insulating materials.

The second bag medial surface is equipped with temperature sensor, and the temperature sensor outside is equipped with waterproof bag, and the wire casing has been seted up along length direction to the nitrogen pipe outer wall is annotated in the center, has arranged waterproof cable in the wire casing, and waterproof cable's the inner is connected with temperature sensor, and waterproof cable's outer end is connected with the temperature display screen that is located the drilling outside.

Fixing the first bag and the second bag on a central nitrogen injection pipe, wherein the distance between the first bag and the second bag is not less than 2 m; connecting the hole sealing pipe with a grouting hose and a second grouting pump, opening a hole sealing valve, pumping clear water by the second grouting pump through the grouting hose and the hole sealing pipe to inject water into the first bag and the second bag, wherein the water injection pressure is not less than 2MPa, so that the outer edges of the first bag and the second bag are fully contacted with the inner wall of the second extraction pipe, and the purpose of sealing the second extraction pipe is achieved; continuously increasing the water injection pressure of the second grouting pump to open a blast valve between the first bag and the second bag on the hole sealing pipe, and allowing clear water to flow into a closed cavity formed between the first bag and the second bag in the second extraction pipe; the opening pressure of the one-way valve on the second bag is 2MPa, when the pressure in the closed cavity is greater than 2MPa, the one-way valve on the second bag is opened towards the inner side of the measure hole, air in the closed cavity is discharged, clean water continuously flows into the closed cavity until the closed cavity is filled with water, and then the second grouting pump and the hole sealing valve are closed.

The specific process of the step (6) is that the ultra-low temperature liquid nitrogen tank is inverted on a bracket, the central nitrogen injection pipe is connected with the liquid nitrogen tank through a liquid injection hose, and a nitrogen injection valve on the central nitrogen injection pipe and a valve on the liquid nitrogen tank are opened in sequence; starting an injection pump to inject ultralow-temperature liquid nitrogen into the measure hole; when the ultralow-temperature liquid nitrogen is injected into the liquid nitrogen tank in a sufficient amount, the liquid nitrogen injection pump, the nitrogen injection valve on the central nitrogen injection pipe and the valve on the liquid nitrogen tank are closed in sequence, and the liquid nitrogen tank is erected to ensure safety; in the nitrogen injection process, gas extraction operation is always carried out on the extraction holes adjacent to the measure holes, so that the escaped gas is guaranteed to be pumped away in time; under the action of ultralow-temperature liquid nitrogen, the first bag, the second bag and the water body in the closed cavity are quickly frozen, and under the action of the self-expansion force of the water body, the water body expands to tightly seal the second extraction pipe; meanwhile, the measure is that wet coal in the holes is quickly frozen and frozen to crack, so that pores and cracks of the coal are increased, and a foundation is laid for increasing the permeability and promoting the pumping in the later period.

In the step (8), when the temperature in the measure hole is monitored to be higher than 0 ℃ through a temperature sensor, the liquid injection hose of the liquid nitrogen supply system is separated from the outer end of the central nitrogen injection pipe; at the moment, the ice in the first bag, the second bag and the closed cavity is gradually melted, after 48 hours, a gas injection hose of a nitrogen gas supply and heating system is connected with the outer end of the central nitrogen injection pipe, and then a gas injection valve on the central nitrogen injection pipe and a nitrogen switch valve on a nitrogen gas bottle are opened; firstly, electrifying an electric heating wire to heat, heating the insulated heat conducting oil in the heat conducting pipe by the electric heating wire, radiating heat energy outwards through the heat conducting pipe after the insulated heat conducting oil is heated, starting a heat injection pump after 3-5 minutes, firstly, enabling nitrogen in a nitrogen cylinder to enter a heating box, heating the nitrogen by the heat emitted by the heat conducting pipe in the process that the nitrogen passes through the heating box, heating the temperature of the nitrogen to 80 ℃, then, enabling the nitrogen to enter a central nitrogen injection pipe through a gas injection hose, and then, enabling the nitrogen to enter a measure hole through the central nitrogen injection pipe; under the heating action of high-temperature and high-pressure nitrogen, the water bodies in the first bag, the second bag and between the two bags are heated and expanded, and the inner wall of the second extraction pipe is tightly sealed under the action of self expansion force.

The specific operation process of taking out the special hole packer from the second extraction pipe in the step (10) is as follows: and closing the heat injection pump, the nitrogen injection switch valve and the air injection valve in sequence, opening the hole sealing valve after 1h, automatically flowing out the first bag, the second bag and the water body between the two bags through the hole sealing pipe, and taking out the special hole sealing device.

By adopting the technical scheme, the invention aims at the characteristics that the coal body is frozen and cracked under the action of ultralow-temperature liquid nitrogen after being soaked in water, gas in the coal body can be displaced and displaced after the liquid nitrogen is gasified, high-temperature and high-pressure nitrogen is inert gas, and the coal body gas can be displaced and displaced, and the water body has the characteristics of low-temperature frozen swelling and thermal swelling, and the invention has the following general technical flows based on the defects of the existing hole packer and coal seam strengthening and pumping promotion method: mechanical drilling → hydraulic reaming → hole sealing → extraction hole continuous pumping → sealing the measure hole by a special hole sealing device → water injection high-pressure fracturing coal body of the measure hole → ultralow temperature liquid nitrogen freezing fracturing → ultralow temperature liquid nitrogen sublimation replacement and coal seam gas displacement → heat injection stimulation coal body of the measure hole → high temperature high pressure nitrogen replacement and coal seam gas displacement → measure hole continuous pumping.

The invention has the following technical effects:

1) according to the invention, the coal body is frozen and cracked by utilizing the frost heaving force of the water-containing coal body at the ultralow temperature and liquid nitrogen, so that the air permeability of the coal layer can be effectively improved, the gas extraction effect is greatly improved, and the purposes of increasing permeability and promoting extraction are achieved;

2) the method comprises the following steps of naturally heating frozen coal bodies by using the ground temperature, slowly sublimating ultralow-temperature liquid nitrogen in drilled holes into gas, forming strong nitrogen partial pressure (high pressure region) on the coal bodies around measure holes, and extracting a low pressure region in the peripheral region of the holes after hydraulic punching due to the creep pressure relief effect of the coal bodies; under the action of strong pressure difference between the measure hole and the extraction hole, the sublimated nitrogen can effectively replace and displace gas in the coal body, and the coal bed gas is extracted under the action of extraction negative pressure of the adjacent extraction hole, so that the gas extraction effect is enhanced;

3) after the coal is frozen and cracked, the coal body is heated by using high-temperature and high-pressure nitrogen, so that the gas desorption is promoted, the replacement and displacement effects on the gas of the coal body are enhanced, the gas extraction effect can be greatly improved, the anti-reflection and extraction promotion are achieved, and the problem of disorder of the extraction, excavation and extraction of a mine is effectively solved;

4) the water body naturally expands under the action of ultralow-temperature liquid nitrogen and high-temperature high-pressure nitrogen by utilizing the frost heaving property and the thermal expansion property of the water, and the water is used as a hole sealing material, so that tight hole sealing can be implemented on a drilled hole, the hole sealing effect is improved, the manufacturing cost is low, the economy is good, and no pollution is caused to coal bodies and underground water;

5) high-temperature nitrogen is used as a heating medium, so that the coal body can be effectively heated, and the coal body in the drill hole can be prevented from being ignited; the method has the advantages that the 'water lock effect' is effectively solved while the safety is ensured, the gas extraction effect is ensured, and the defects of high attenuation speed, high energy consumption, high possibility of damage, incapability of recycling and the like of heating measures such as infrared and microwave can be overcome;

6) an electric heating wire (resistance wire) is adopted in a heating box to heat nitrogen, and the electric heating wire is arranged in a sealing structure (heat conduction pipe) filled with insulating heat conduction oil, so that the heating effect of the nitrogen is ensured, and accidents such as gas explosion, coal dust explosion and the like caused by electric sparks are avoided;

7) under the extraction negative pressure action of the extraction system on the extraction hole, a low-pressure area is formed around the extraction hole, ultralow-temperature liquid nitrogen is sublimated into gaseous nitrogen and high-temperature high-pressure nitrogen are formed around the measure hole to form a strong gas pressure difference between the measure hole and the extraction drill hole, so that the replacement and displacement of coal gas are enhanced, the gas extraction effect is improved, the hydraulic cave construction quantity is greatly reduced, the 'extraction-excavation-extraction' balance of a mine is realized, and the safety of the mine is ensured;

8) the heat injection pump is arranged at the front side of the heating box, so that the heat injection pump is ensured to be in a low-temperature state, the service life of the heat injection pump is effectively prolonged, and a stable high-pressure air source can be provided

9) The extraction pipe is a PVE pipe, the central nitrogen injection pipe is made of polytetrafluoroethylene, and the pipe has the characteristics of low temperature resistance, corrosion resistance, static resistance, flame retardance, hydrophobicity, non-adhesiveness and the like, can be applied to the hole packer, and ensures the air tightness

10) After the cold and heat injection processes are finished, the measure hole can be continuously used as a gas extraction hole, so that the purpose of one hole with multiple purposes is realized

11) The special hole packer adopts the design of matching a double-bag with a one-way valve and an explosion valve, and can smoothly discharge water in the bag and between the two bags; the water body hole sealing section is arranged in the extraction pipe, and the inner wall of the extraction pipe is smooth and has small deformation; the measures ensure that the hole packer can be repeatedly used, and the material cost is reduced;

12) a temperature sensor is adopted to monitor the temperature in the measure hole, the display screen displays that the temperature is higher than 0 ℃ after liquid nitrogen is injected, timing is started, and the high-temperature high-pressure nitrogen is injected into the measure hole and can also be used for monitoring the internal temperature so as to carry out the starting and the duration of the next process according to actual conditions.

In conclusion, the invention has scientific principle, ingenious design, tight hole sealing, safety and reliability, can be widely applied to the works of rock cross-cut coal uncovering, fault crossing, excavation working face permeability increasing and extraction promoting and the like by combining with hydraulic punching, has good permeability increasing and extraction promoting effects and wide application prospect.

Drawings

FIG. 1 is a schematic structural diagram of the special hole packer during hole sealing;

FIG. 2 is an enlarged view of the specialized hole packer of FIG. 1;

FIG. 3 is a schematic structural diagram of the special hole packer during liquid nitrogen injection;

FIG. 4 is a schematic structural diagram of the special hole packer during injecting high-temperature and high-pressure nitrogen;

FIG. 5 is a schematic view showing the internal structure of the nitrogen gas heating apparatus in FIG. 4;

FIG. 6 is a schematic plan view of a drilling arrangement according to the present invention;

figure 7 is a schematic cross-sectional view of a drilling arrangement according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

As shown in fig. 1-7, the method for promoting suction by hydraulic punching, freeze fracturing and heat injection stimulation in a synergistic anti-reflection manner comprises the following steps:

(1) operating and controlling a mechanical drilling machine to construct cross-layer drill holes to a coal body 2 in a bottom plate rock roadway 1 (the mechanical drilling machine firstly drills a rock layer 51 and then drills the coal body 2), arranging drilling end holes in a grid-shaped array, setting the distance between every two adjacent drilling end holes to be 8-10m, and respectively naming any two adjacent drilling holes as a measure hole 3 and an extraction hole 4;

(2) performing hydraulic punching on the extraction hole 4, performing conventional hole sealing by a two-plugging one-injection process after the hydraulic punching construction is finished and each drill hole is finished, wherein the length of the sealed hole section of each drill hole is not less than 8 m; after the hole sealing material is solidified, connecting a first extraction pipe 5 in an extraction hole 4 with an underground extraction system (gas extraction pipeline) of the coal mine for gas extraction;

(3) connecting the outer end of a second extraction pipe 6 in the measure hole 3 with a first grouting pump, and starting the first grouting pump to perform high-pressure water injection on the coal body 2 around the measure hole 3, wherein the water pressure of the water injection is not less than 10 MPa; the coal bodies 2 around the measure holes 3 generate a large number of pores and a plurality of main cracks under the action of strong water pressure, and water enters the coal bodies 2 around the measure holes 3 and deep along the pores and the cracks;

(4) after the high-pressure water injection is finished, the first grouting pump is disconnected from the second extraction pipe 6 in the measure hole 3, accumulated water in the measure hole 3 is discharged, and the inner wall of the second extraction pipe 6, which is 8m away from the hole opening, is cleaned; at this time, the coal bodies 2 around and deep in the measure holes 3 are fully wet;

(5) the special hole packer 50 is sent into the second extraction pipe 6 to a preset depth, and hole sealing is carried out on the second extraction pipe 6;

(6) connecting the special hole packer 50 with a liquid nitrogen supply system, and injecting liquid nitrogen into the measure hole 3 through the special hole packer 50 to freeze the coal body 2 around the measure hole 3;

(7) after the nitrogen injection is finished, slowly sublimating liquid nitrogen into nitrogen under the action of the ground temperature, and performing gas extraction operation on the nitrogen adjacent to the extraction hole 4 of the measure hole 3 in the process; the volume expansion of the sublimed nitrogen is more than 500 times of that of the injected liquid nitrogen, strong nitrogen partial pressure, namely a high-pressure area, is formed around the measure hole 3 in the coal body 2, and lower gas pressure, namely a low-pressure area, is formed around the extraction hole 4; under the action of strong pressure difference between the measure hole 3 and the extraction hole 4, the sublimated nitrogen can effectively replace and displace gas in the coal body 2, and under the action of extraction negative pressure of the adjacent extraction hole 4, coal bed gas is extracted, so that the gas extraction effect is enhanced;

(8) the liquid nitrogen is completely sublimated for 48 hours, and a liquid nitrogen supply system is separated from the special hole packer 50; then connecting the nitrogen gas supply and heating system with the special hole packer 50, and injecting high-temperature and high-pressure nitrogen gas into the measure hole 3 from the special hole packer 50 by the nitrogen gas supply and heating system;

(9) high-temperature and high-pressure nitrogen is used for injecting heat to the coal body 2 at high pressure, and the pressure of the nitrogen is not less than 2 MPa; the nitrogen is transported to the far position of the measure hole 3 under the action of high pressure, the coal body is continuously heated in the transportation process, the gas desorption of the coal body 2 is promoted, the coal body 2 is pyrolyzed, the pores of the coal body 2 are increased, the gas permeability of the coal body 2 is improved, and the gas extraction is strengthened; meanwhile, the adjacent extraction holes 4 are used for normally extracting gas all the time, so that the escaped gas of the heated coal body 2 is guaranteed to be pumped away in time, and the gas is prevented from hurting people;

(10) after injecting high-temperature and high-pressure nitrogen into the measure hole 3 to heat the coal body 2 for 4 hours, stopping the heat injection and strengthening pumping promotion work of the coal body 2, then taking out the special hole packer 50 from the second pumping pipe 6, and continuing to reuse the special hole packer 50 next time;

(11) and connecting the second extraction pipe 6 in the measure hole 3 with an extraction system to perform gas extraction work, and further strengthening the gas extraction effect.

The special hole packer 50 comprises a water tank 7, a second grouting pump 8 and a grouting hose 9, the central nitrogen injection pipe 13 and the hole sealing pipe 14 are parallel to the second extraction pipe 6, the first bag 11 and the second bag 12 are fixedly arranged on the central nitrogen injection pipe 13 along the same central line, the second bag 12 is positioned on the inner side of the first bag 11, the outlet end of the hole sealing pipe 14 penetrates through the first bag 11 and extends into the second bag 12, the hole sealing pipe 14 is provided with a through hole communicated with the inside of the first bag 11, a closed cavity 16 is formed between the first bag 11 and the second bag 12 inside the second extraction pipe 6, the second bag 12 is provided with a one-way valve 17, the inlet of the one-way valve 17 is communicated with the closed cavity 16, the outlet of the one-way valve 17 is positioned on the inner side of the second bag 12, and a blast valve 18 is arranged on the hole sealing pipe 14 between the first bag 11 and the second bag 12; the joints of the central nitrogen injection pipe 13, the hole sealing pipe 14 and the one-way valve 17 and the second bag 12 are all connected in a sealing way, and the joints of the central nitrogen injection pipe 13, the hole sealing pipe 14 and the first bag 11 are all connected in a sealing way; the outer end part of the central nitrogen injection pipe 13 is provided with a nitrogen injection valve 21, and the outer end part of the hole sealing pipe 14 is provided with a hole sealing valve 22; two ends of the grouting hose 9 are respectively connected with the outer end of the hole sealing pipe 14 and the water tank 7, and the second grouting pump 8 is arranged on the grouting hose 9.

Liquid nitrogen feed system includes liquid nitrogen container 10, annotates liquid hose 15 and notes liquid pump 19, annotates liquid hose 15 both ends and is connected with liquid nitrogen container 10 and the outer end of central notes nitrogen pipe 13 respectively, annotates liquid pump 19 and sets up on annotating liquid hose 15, and liquid nitrogen container 10 handstand sets up on first support 20, and the jar mouth department of liquid nitrogen container 10 is equipped with liquid nitrogen ooff valve 23.

The nitrogen gas supplying and heating system comprises a nitrogen gas bottle 32, a heat injection pump 33, a nitrogen gas heating device 34 and a gas injection hose 35, wherein two ends of the gas injection hose 35 are respectively connected with the nitrogen gas bottle 32 and the outer end of the central nitrogen injection pipe 13, the nitrogen gas heating device 34 and the heat injection pump 33 are arranged on the gas injection hose 35, the nitrogen gas heating device 34 is positioned between the heat injection pump 33 and the nitrogen gas bottle 32, the nitrogen gas bottle 32 is arranged on a second support 36 in an inverted mode, and a nitrogen gas switch valve 37 is arranged at the tank opening of the nitrogen gas bottle 32.

The nitrogen heating device 34 comprises a heating box 29 in a cuboid structure, an air inlet and an air outlet which are connected with an air injection hose 35 are respectively arranged on two front and back opposite side surfaces of the heating box 29, a three-dimensional net cage structure is arranged in the heating box 29, fixing rings 50 for fixing the three-dimensional cage structure are respectively arranged on the left side wall and the right side wall of the heating box 29, the three-dimensional net cage structure is formed by fixedly connecting a plurality of heat conduction pipes 24 which are arranged in a criss-cross mode, electric heating wires 25 and insulating heat conduction oil 26 are arranged in the heat conduction pipes 24, upper wiring posts 27 and lower wiring posts 28 are respectively arranged above and below the three-dimensional net cage structure in the heating box 29, the upper ends and the lower ends of all the electric heating wires 25 are respectively connected with wires 31, the upper wiring posts 31 and the lower wiring posts 31 are respectively connected with the upper wiring posts 27 and the lower wiring posts;

the wall of the heating box 29 is of a three-layer structure, the outermost layer and the innermost layer are respectively formed by welding steel plates, and the middle interlayer is filled with glass fiber heat-insulating materials 30 (the glass fiber heat-insulating material has good heat-insulating performance, ensures that heat is not dissipated outwards, and improves heat exchange efficiency).

The inner side surface of the second bag 12 is provided with a temperature sensor 38, a waterproof bag is arranged outside the temperature sensor 38, a wire slot is formed in the outer wall of the central nitrogen injection pipe 13 along the length direction, a waterproof cable 39 is arranged in the wire slot, the inner end of the waterproof cable 39 is connected with the temperature sensor 38, and the outer end of the waterproof cable 39 is connected with a temperature display screen 40 located outside a drilled hole.

The specific process of the step (5) is that the first bag 11 and the second bag 12 are fixed on the central nitrogen injection pipe 13, and the distance between the first bag 11 and the second bag 12 is not less than 2 m; connecting the hole sealing pipe 14 with the grouting hose 9 and the second grouting pump 8, opening the hole sealing valve 22, pumping clear water by the second grouting pump 8 through the grouting hose 9 and the hole sealing pipe 14 to inject water into the first bag 11 and the second bag 12, wherein the water injection pressure is not less than 2MPa, so that the outer edges of the first bag 11 and the second bag 12 are fully contacted with the inner wall of the second extraction pipe 6, and the purpose of sealing the second extraction pipe 6 is achieved; the water injection pressure of the second grouting pump 8 is continuously increased, so that the blast valve 18 between the first bag 11 and the second bag 12 on the hole sealing pipe 14 is opened, and clean water flows into the closed cavity 16 formed between the first bag 11 and the second bag 12 in the second extraction pipe 6; the opening pressure of the check valve 17 on the second bag 12 is 2MPa, when the pressure in the closed cavity 16 is greater than 2MPa, the check valve 17 on the second bag 12 is opened towards the inner side of the measure hole 3, air in the closed cavity 16 is discharged, clean water is enabled to continuously flow into the closed cavity 16 until the closed cavity 16 is filled with water (according to the volumes of the first bag 11, the second bag 12 and the closed cavity 16 and in combination with the water injection speed of the second grouting pump 8, the time required for filling water can be calculated, in order to ensure that the closed cavity 16 is filled with water, the time required for filling water can be prolonged by 1-2 minutes, and then the second grouting pump 8 and the hole sealing valve 22 are closed.

The specific process of the step (6) is that the ultra-low temperature liquid nitrogen tank 10 is inverted on a bracket, the central nitrogen injection pipe 13 is connected with the liquid nitrogen tank 10 through the liquid injection hose 15, and the nitrogen injection valve 21 on the central nitrogen injection pipe 13 and the valve on the liquid nitrogen tank 10 are opened in sequence; starting an injection pump 19 to inject ultralow-temperature liquid nitrogen into the measure hole 3; when the ultralow-temperature liquid nitrogen is injected into a sufficient amount, the liquid injection pump 19, the nitrogen injection valve 21 on the central nitrogen injection pipe 13 and the valve on the liquid nitrogen tank 10 are closed in sequence, and the liquid nitrogen tank 10 is erected to ensure safety; in the nitrogen injection process, gas extraction operation is always carried out on the extraction holes 4 adjacent to the measure hole 3, so that the escaped gas is ensured to be extracted in time; under the action of ultralow temperature liquid nitrogen, the water in the first bag 11, the second bag 12 and the closed cavity 16 is quickly frozen, and under the action of the self expansion force of the water, the water expands to tightly seal the second extraction pipe 6; meanwhile, the wet coal body 2 in the holes 3 is quickly frozen, frozen and cracked, the pores and cracks of the coal body 2 are increased, and a foundation is laid for later-period permeability increasing and pumping promotion.

In the step (8), when the temperature in the measure hole 3 is monitored to be higher than 0 ℃ through the temperature sensor 38, the liquid injection hose 15 of the liquid nitrogen supply system is separated from the outer end of the central nitrogen injection pipe 13; at the moment, the ice in the first bag 11, the second bag 12 and the closed cavity 16 is gradually melted, after 48 hours, the gas injection hose 35 of the nitrogen gas supply and heating system is connected with the outer end of the central nitrogen injection pipe 13, and then the gas injection valve on the central nitrogen injection pipe 13 and the nitrogen switch valve 37 on the nitrogen gas bottle 32 are opened; firstly, electrifying an electric heating wire 25 to heat, heating the insulating heat conduction oil 26 in a heat conduction pipe 24 by the electric heating wire 25, radiating heat energy outwards through the heat conduction pipe 24 after the insulating heat conduction oil 26 is heated, starting a heat injection pump 33 after 3-5 minutes, firstly enabling nitrogen in a nitrogen bottle 32 to enter a heating box 29, heating the nitrogen by heat emitted by the heat conduction pipe 24 in the process that the nitrogen passes through the heating box 29, heating the nitrogen to 80 ℃, then enabling the nitrogen to enter a central nitrogen injection pipe 13 through a gas injection hose 35, and then enabling the nitrogen to enter a measure hole 3 through the central nitrogen injection pipe 13; under the heating action of high-temperature and high-pressure nitrogen, the water bodies in the first bag 11 and the second bag 12 and between the two bags expand under the heating action, and the inner wall of the second extraction pipe 6 is tightly sealed under the action of self expansion force.

The specific operation process of taking out the special hole packer 50 from the second extraction pipe 6 in the step (10) is as follows: and closing the heat injection pump 33, the nitrogen injection switch valve and the air injection valve in sequence, opening the hole sealing valve 22 after 1h, automatically flowing out the water body among the first bag 11, the second bag 12 and the two bags through the hole sealing pipe 14, and taking out the special hole sealer 50.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The method for promoting the gas extraction by the synergic permeability increase of hydraulic punching, freezing fracturing and heat injection stimulation is characterized by comprising the following steps: comprises the following steps of (a) carrying out,

2. The method for hydraulic punching, freeze fracturing and heat injection stimulation synergistic permeability increase and suction promotion according to claim 1, characterized in that: the special hole packer comprises a water tank, a second grouting pump, a grouting hose, a first bag, a second bag, a central nitrogen injection pipe and a hole sealing pipe, wherein the central nitrogen injection pipe and the hole sealing pipe are parallel to a second extraction pipe, the first bag and the second bag are fixedly arranged on the central nitrogen injection pipe along the same central line, the second bag is positioned on the inner side of the first bag, the outlet end of the hole sealing pipe penetrates through the first bag to extend into the second bag, a through hole communicated with the inside of the first bag is formed in the hole sealing pipe, a closed cavity is formed between the first bag and the second bag in the second extraction pipe, a one-way valve is arranged on the second bag, the inlet of the one-way valve is communicated with the closed cavity, the outlet of the one-way valve is positioned on the inner side of the second bag, and an explosion valve is arranged between the first bag and the second bag on the hole sealing pipe; the central nitrogen injection pipe, the hole sealing pipe and the one-way valve are hermetically connected with the joint of the second bag, and the central nitrogen injection pipe, the hole sealing pipe and the joint of the first bag are hermetically connected; the outer end part of the central nitrogen injection pipe is provided with a nitrogen injection valve, and the outer end part of the hole sealing pipe is provided with a hole sealing valve; the two ends of the grouting hose are respectively connected with the outer end of the hole sealing pipe and the water tank, and the second grouting pump is arranged on the grouting hose.

3. The method for hydraulic punching, freeze fracturing and heat injection stimulation synergistic permeability increase and suction promotion according to claim 1, characterized in that: liquid nitrogen feed system includes the liquid nitrogen container, annotates liquid hose and annotates the liquid pump, annotates the liquid hose both ends and is connected with the outer end of liquid nitrogen container and central notes nitrogen pipe respectively, and the notes liquid pump setting is on annotating the liquid hose, and the liquid nitrogen container handstand sets up on first support, and the jar mouth department of liquid nitrogen container is equipped with the liquid nitrogen ooff valve.

4. The method for hydraulic punching, freeze fracturing and heat injection stimulation synergistic permeability increase and suction promotion according to claim 1, characterized in that: the nitrogen gas supply and heating system comprises a nitrogen gas bottle, a heat injection pump, a nitrogen gas heating device and a gas injection hose, wherein two ends of the gas injection hose are respectively connected with the outer ends of the nitrogen gas bottle and the central nitrogen injection pipe, the nitrogen gas heating device and the heat injection pump are arranged on the gas injection hose, the nitrogen gas heating device is arranged between the heat injection pump and the nitrogen gas bottle, the nitrogen gas bottle is arranged on the second support in an inverted mode, and a nitrogen gas switch valve is arranged at the tank opening of the nitrogen gas bottle.

5. The hydraulic punching, freezing fracturing and heat injection stimulation synergistic permeability-increasing and suction-promoting method according to claim 4, characterized in that: the nitrogen heating device comprises a heating box with a cuboid structure, an air inlet and an air outlet which are connected with a gas injection hose are respectively arranged on two opposite side surfaces of the front side and the back side of the heating box, a three-dimensional net cage structure is arranged in the heating box, fixing rings for fixing the three-dimensional cage structure are respectively arranged on the left side box wall and the right side box wall of the heating box, the three-dimensional net cage structure is formed by fixedly connecting a plurality of heat conduction pipes which are arranged in a criss-cross mode, electric heating wires and insulating heat conduction oil are arranged in the heat conduction pipes, an upper wiring terminal and a lower wiring terminal are respectively arranged above and below the three-dimensional net cage structure in the heating box, the upper ends and the lower ends of all the electric heating wires are respectively connected with a lead wire, the upper lead wire and the lower lead;

6. The method for promoting suction by hydraulic punching, freeze fracturing and heat injection stimulation in synergy of reflection reduction according to claim 3, 4 or 5, is characterized in that: the second bag medial surface is equipped with temperature sensor, and the temperature sensor outside is equipped with waterproof bag, and the wire casing has been seted up along length direction to the nitrogen pipe outer wall is annotated in the center, has arranged waterproof cable in the wire casing, and waterproof cable's the inner is connected with temperature sensor, and waterproof cable's outer end is connected with the temperature display screen that is located the drilling outside.

7. The hydraulic punching, freezing fracturing and heat injection stimulation synergistic permeability-increasing and suction-promoting method according to claim 6, characterized in that: fixing the first bag and the second bag on a central nitrogen injection pipe, wherein the distance between the first bag and the second bag is not less than 2 m; connecting the hole sealing pipe with a grouting hose and a second grouting pump, opening a hole sealing valve, pumping clear water by the second grouting pump through the grouting hose and the hole sealing pipe to inject water into the first bag and the second bag, wherein the water injection pressure is not less than 2MPa, so that the outer edges of the first bag and the second bag are fully contacted with the inner wall of the second extraction pipe, and the purpose of sealing the second extraction pipe is achieved; continuously increasing the water injection pressure of the second grouting pump to open a blast valve between the first bag and the second bag on the hole sealing pipe, and allowing clear water to flow into a closed cavity formed between the first bag and the second bag in the second extraction pipe; the opening pressure of the one-way valve on the second bag is 2MPa, when the pressure in the closed cavity is greater than 2MPa, the one-way valve on the second bag is opened towards the inner side of the measure hole, air in the closed cavity is discharged, clean water continuously flows into the closed cavity until the closed cavity is filled with water, and then the second grouting pump and the hole sealing valve are closed.

8. The hydraulic punching, freezing fracturing and heat injection stimulation synergistic permeability-increasing and suction-promoting method according to claim 7, characterized in that: the specific process of the step (6) is that the ultra-low temperature liquid nitrogen tank is inverted on a bracket, the central nitrogen injection pipe is connected with the liquid nitrogen tank through a liquid injection hose, and a nitrogen injection valve on the central nitrogen injection pipe and a valve on the liquid nitrogen tank are opened in sequence; starting an injection pump to inject ultralow-temperature liquid nitrogen into the measure hole; when the ultralow-temperature liquid nitrogen is injected into the liquid nitrogen tank in a sufficient amount, the liquid nitrogen injection pump, the nitrogen injection valve on the central nitrogen injection pipe and the valve on the liquid nitrogen tank are closed in sequence, and the liquid nitrogen tank is erected to ensure safety; in the nitrogen injection process, gas extraction operation is always carried out on the extraction holes adjacent to the measure holes, so that the escaped gas is guaranteed to be pumped away in time; under the action of ultralow-temperature liquid nitrogen, the first bag, the second bag and the water body in the closed cavity are quickly frozen, and under the action of the self-expansion force of the water body, the water body expands to tightly seal the second extraction pipe; meanwhile, the measure is that wet coal in the holes is quickly frozen and frozen to crack, so that pores and cracks of the coal are increased, and a foundation is laid for increasing the permeability and promoting the pumping in the later period.

9. The hydraulic punching, freezing fracturing and heat injection stimulation synergistic permeability-increasing and suction-promoting method according to claim 7, characterized in that: in the step (8), when the temperature in the measure hole is monitored to be higher than 0 ℃ through a temperature sensor, the liquid injection hose of the liquid nitrogen supply system is separated from the outer end of the central nitrogen injection pipe; at the moment, the ice in the first bag, the second bag and the closed cavity is gradually melted, after 48 hours, a gas injection hose of a nitrogen gas supply and heating system is connected with the outer end of the central nitrogen injection pipe, and then a gas injection valve on the central nitrogen injection pipe and a nitrogen switch valve on a nitrogen gas bottle are opened; firstly, electrifying an electric heating wire to heat, heating the insulated heat conducting oil in the heat conducting pipe by the electric heating wire, radiating heat energy outwards through the heat conducting pipe after the insulated heat conducting oil is heated, starting a heat injection pump after 3-5 minutes, firstly, enabling nitrogen in a nitrogen cylinder to enter a heating box, heating the nitrogen by the heat emitted by the heat conducting pipe in the process that the nitrogen passes through the heating box, heating the temperature of the nitrogen to 80 ℃, then, enabling the nitrogen to enter a central nitrogen injection pipe through a gas injection hose, and then, enabling the nitrogen to enter a measure hole through the central nitrogen injection pipe; under the heating action of high-temperature and high-pressure nitrogen, the water bodies in the first bag, the second bag and between the two bags are heated and expanded, and the inner wall of the second extraction pipe is tightly sealed under the action of self expansion force.

10. The hydraulic punching, freezing fracturing and heat injection stimulation synergistic permeability-increasing and suction-promoting method according to claim 9, characterized in that: the specific operation process of taking out the special hole packer from the second extraction pipe in the step (10) is as follows: and closing the heat injection pump, the nitrogen injection switch valve and the air injection valve in sequence, opening the hole sealing valve after 1h, automatically flowing out the first bag, the second bag and the water body between the two bags through the hole sealing pipe, and taking out the special hole sealing device.