CN112324337A

CN112324337A - Whole-process gas extraction method for through-layer top comb-shaped drilling of bottom plate of soft coal seam

Info

Publication number: CN112324337A
Application number: CN202011224078.3A
Authority: CN
Inventors: 魏民涛; 唐俊; 沈润生; 高远; 高向阳; 程子华; 张格强; 陈洪涛; 秦波涛
Original assignee: Henan Shenhuo Coal & Power Co ltd; China University of Mining and Technology CUMT
Current assignee: Henan Shenhuo Coal & Power Co ltd; China University of Mining and Technology CUMT
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-02-05
Anticipated expiration: 2040-11-05
Also published as: CN112324337B

Abstract

The invention belongs to the technical field of coal mine gas treatment and discloses a whole gas extraction method for a bottom plate of a soft coal seam by penetrating along a top comb-shaped drill hole, namely, gas is extracted from a bottom plate by penetrating along the top comb-shaped drill hole, namely, the method comprises the following specific steps: firstly, constructing a cross-layer drill hole in a floor roadway to enter a coal seam roof, arranging horizontal bedding drill holes along the roof, constructing downward branch fracturing drill holes every 25-30m at the same time, and entering a coal seam floor by 2 m; secondly, hydraulic punching is carried out on the branch coal holes, coal slag is discharged at the same time, water injection pressure is gradually increased, staged hole sealing is realized, hydraulic fracturing of the coal seam is started, the water injection pressure is 25MPa-30MPa, fracturing is stopped after target pressure and time are reached, the water injection pressure is reduced, and then punching is carried out; repeating the steps to complete the anti-reflection work of all the branch drill holes; and finally, connecting the drainage pipe to implement the whole-process gas extraction of the coal seam. The invention is suitable for soft coal seams, can greatly increase the air permeability of the coal seams, reduce the gas pressure and the gas content of the coal seams and improve the gas treatment effect of the coal seams.

Description

Whole-process gas extraction method for through-layer top comb-shaped drilling of bottom plate of soft coal seam

Technical Field

The invention belongs to the technical field of coal mine underground gas extraction permeability increase, and particularly relates to a whole-process gas extraction method for a bottom plate of a soft coal seam through-layer top comb-shaped drilling hole.

Background

Coal and gas outburst is one of major disasters of coal mines all the time, and gas extraction is a fundamental method for realizing regional gas control. However, with the increase of the coal seam mining depth, the coal seam gas content is continuously increased, the coal seam gas permeability is gradually reduced, the gas emission amount in the mining process is larger and larger, the hidden danger of gas disasters such as gas overrun, various power phenomena, coal and gas outburst accidents and the like is more and more serious, and efficient gas extraction becomes the primary task of coal mine gas control. The method aims at the problem that gas extraction of the coal seam with high pressure, softness and poor air permeability is still difficult to extract, and aims to improve the efficiency of gas treatment of the soft coal seam stope face area, increase the air permeability of the coal seam and improve the gas extraction rate. The traditional floor cross-layer drilling has the advantages of large drilling quantity, large construction work amount, long extraction period, high cost and poor effect, the drilling hole is easily blocked by coal bed coal slag and water, and the extraction problem of the soft coal bed is more serious. Therefore, a whole-course extraction method based on punching-fracturing permeability-increasing along top comb-shaped drilling holes in a bottom plate of a soft coal seam is needed to effectively solve the problems.

Disclosure of Invention

The purpose of the invention is as follows: in order to solve the problems of gas extraction of a high-gas soft coal seam, a whole-process gas extraction method of a bottom plate penetrating layer of the soft coal seam along a top comb-shaped drilling hole is provided.

In order to achieve the purpose, the invention adopts the following technical scheme:

a whole-course gas extraction method for a bottom plate crossing layer of a soft coal seam along a top comb-shaped drill hole comprises the following steps:

the method comprises the following steps: drilling a hole from the ground surface to a bottom plate rock stratum, arranging a drilling field at the bottom plate rock stratum, arranging drilling equipment and cement paste equipment in the drilling field, drilling an orifice pipe rock section in an inclined upward direction by using the drilling equipment, withdrawing a drill rod, then inserting an orifice pipe with the length smaller than that of the orifice pipe rock section into the orifice pipe rock section, repeatedly performing high-pressure grouting on the orifice pipe by using the cement paste equipment, filling cement paste into the orifice pipe and the orifice pipe rock section, and waiting for the cement paste to solidify;

step two: after the cement paste is solidified, drilling a coal seam hole section in an upward direction obliquely along the inside of the orifice pipe by using drilling equipment, wherein the coal seam hole section penetrates through the soft coal seam to a top rock stratum close to the top plate of the soft coal seam and then falls flat, withdrawing the drill rod, injecting high-pressure cement paste into the coal seam hole section by using the cement paste equipment, and waiting for the cement paste to be solidified;

step three: drilling holes along the coal seam hole sections by using drilling equipment, drilling a hydraulic fracturing main hole section in the roof rock stratum in the horizontal direction after the holes reach the roof rock stratum, and simultaneously constructing hydraulic fracturing in the drilling process, wherein the hydraulic fracturing penetrates through the whole hydraulic fracturing main hole section;

step four: after the hydraulic fracturing main hole section is drilled, withdrawing the drill rod, drilling a hydraulic fracturing branch hole section downwards every time the drill rod is withdrawn by a certain distance, wherein the hydraulic fracturing branch hole section penetrates through the soft coal seam to the bottom plate rock stratum, and hydraulic fracturing is simultaneously constructed in the drilling process and penetrates through the whole hydraulic fracturing branch hole section;

step five: after the hydraulic fracturing branch hole section is finished, hydraulic punching is carried out through the drill rod, after the hydraulic punching is finished, the drill rod is withdrawn to the upper end position of the hydraulic fracturing branch hole section, and the water pressure in the high-pressure drill rod is increased until the expansion hole sealing device on the drill rod is opened to seal holes;

step six: after hole sealing, continuously injecting water into the drill rod, keeping the pressure, maintaining for a certain time, closing the expansion hole sealing device after hydraulic fracturing is completed, and withdrawing the drill rod to a hydraulic fracturing main hole section;

step seven: repeating the fourth step to the sixth step to finish the drilling and hydraulic fracturing work of a plurality of hydraulic fracturing branch hole sections;

step eight: the drill rod completely exits from the hydraulic fracturing main hole section and the coal seam hole section, gas combined extraction work is implemented, after gas treatment extraction in a stope face area reaches the standard, coal roadway tunneling work is started, and working face bedding drilling pre-extraction work is implemented according to the gas treatment effect of the working face;

step nine: and (3) conveying the hydraulic fracturing main hole section to a two-plug one-injection hole packer at a leveling position, performing extraction standard-reaching evaluation by using extraction standard-reaching evaluation software in the extraction process, and starting tunneling a coal roadway after the extraction reaches the standard.

As a further preferable scheme, in the step one, an anchoring agent is used for anchoring an orifice pipe, the orifice pipe is provided with a flange cover, and the flange cover is provided with a joint for connecting the drilling equipment and the cement paste equipment.

In a further preferable scheme, in the step one, thick slurry is injected into the fixed orifice pipe firstly, then the thin slurry is injected into the fixed orifice pipe for reinforcing, after the thick slurry is solidified for 24 hours, high-pressure grouting is repeated until the pressure resistance is more than 10MPa, and the next process is carried out after the cement slurry is solidified for 48 hours.

As a further preferable scheme, in the fourth step, every time the drill pipe retreats 50-60m in the hydraulic fracturing main hole section, one hydraulic fracturing branch hole section is drilled downwards, and the bottom of the hydraulic fracturing branch hole section forms a water storage bin for containing water and coal cinder at the position of the bottom rock stratum.

As a further preferable scheme, in the sixth step, after hole sealing, water is continuously injected into the drill rod, the pressure is increased to 15MPa, and the drill rod is stabilized for 30 min.

The invention discloses a whole-course extraction method based on penetration of a bottom plate of a soft coal seam along a top comb-shaped drilling hole-fracturing permeability-increasing, which is suitable for regional gas control of a high-gas soft coal seam. The stability of a main hole is guaranteed along the top hydraulic fracturing when the bottom plate penetrates through the coal seam by solidifying the soft coal seam through drilling, then hydraulic fracturing branch holes are constructed by sequentially utilizing the main hole, hydraulic punching is firstly carried out in the branch holes, and a part of soft coal is flushed out to play a role in preliminary pressure relief and permeability increase; hydraulic fracturing is continuously carried out after the punching, which is beneficial to further fracturing the coal body, communicating the fracture and expanding the pressure relief influence range; and hydraulic punching is carried out on the basis of fracturing again, coal bodies around the holes are washed back and forth, pressure relief spaces around the holes are increased, and the migration of the coal bodies around the holes under the action of the ground stress in the extraction process is facilitated, so that the air permeability of a coal seam is increased, the drainage radius of a drill hole is increased, the single-hole extraction efficiency is improved, the extraction time is shortened, and the cost is saved.

Drawings

FIG. 1 is a cross-sectional view of a grouting securing orifice pipe of the present invention;

FIG. 2 is a cross-sectional view of a solidified coal pore section of a hydraulic pressure main drilling hole according to the present invention;

FIG. 3 is a cross-sectional view of the soft coal seam floor through the top comb borehole arrangement in accordance with the present invention;

the method comprises the following steps of 1-drilling field, 2-orifice pipe rock hole section, 3-orifice pipe, 4-coal bed hole section, 5-hydraulic fracturing main hole section and 6-hydraulic fracturing branch hole section.

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.

The invention relates to a whole-course gas extraction technology based on a soft coal seam floor crossing layer along a top comb-shaped drilling hole, which mainly comprises six steps, namely, fixing a hole pipe; secondly, solidifying the soft coal seam layer-penetrating holes; thirdly, constructing a horizontal main drilling hole of the top plate; fourthly, constructing a cross-layer branch drilling hole in a 'retreating mode'; fifthly, branch drilling and punching, fracturing and punching; sixthly, hole sealing and drainage.

As shown in fig. 1, a floor roadway is arranged in the middle below a treatment working surface of a planned area, the floor roadway is located at a position 10-15m away from a coal seam floor, drilling sites 1 are arranged on two sides of the floor roadway, and each device including a drilling device and a cement slurry device is arranged in each drilling site 1; the method is characterized in that a cross-layer drilling hole opening pipe rock section 2 is solidified by multiple times of high-pressure grouting, and the specific process comprises the following steps:

firstly, drilling with the depth of 10m and the diameter of 133mm, forming a hole section 2 of a hole pipe, putting a hole pipe 3 with a flange plate and the length of 10m and the diameter of 133mm, anchoring the hole pipe by adopting an anchoring agent, repeating high-pressure grouting until the pressure resistance is more than 10MPa, and after cement slurry is solidified for 48 hours, constructing a through-layer drilling hole.

As shown in fig. 2, the flange plate cover is opened, the construction of cross-layer drilling is continued, the diameter of the drilled hole is 113mm, the drilled hole is leveled after entering the coal seam roof for 2m, a coal seam hole section 4 is formed, namely, the drill rod is withdrawn, the flange plate cover is fixed, high-pressure cement slurry is injected through a grouting valve, the grouting must be performed by firstly thin slurry and then thick slurry when the soft coal is cured for drilling, the grouting pressure is 15MPa, the grouting valve is closed after the grouting is completed, the cement slurry penetrates into the coal seam hole section 4, and the subsequent construction work of fracturing holes can be performed after the cement slurry is solidified for 48 hours.

As shown in fig. 3, a directional drilling machine is used for sweeping holes, the diameter of each drilled hole is 95mm, hydraulic fracturing is conducted on the back edge of the coal seam roof to form a hydraulic fracturing main hole section 5, the hydraulic fracturing main hole section 5 penetrates through the top rock stratum on the whole coal seam roof, directional drill rods are withdrawn section by section, hydraulic fracturing is conducted downwards every 50-60m to form a hydraulic fracturing branch hole section 6, the diameter of each drilled hole is 95mm, the drilled holes penetrate through the coal seam and enter the bottom plate of the coal seam for 2m, a water storage bin with the depth of not less than 2m is formed, the problem that water and coal cinder cannot be discharged in the later period is accumulated is solved, the inhibition effect of the water and coal cinder on the gas release.

And (2) starting hydraulic punching after constructing a branch fracturing hole, namely enabling high-pressure water to pass through a high-seal drill rod, ejecting high-pressure water jet by using a punching drill bit to flush the coal body, simultaneously rotating the drill rod, discharging a coal-water mixture and gas through a drilled hole, wherein the water injection pressure is not lower than 10MPa, the punched coal quantity is about 1.2t/m, and the specific punched coal quantity is required to be adjusted according to the hardness degree of the coal body. After hydraulic punching is completed, the directional drill rod is withdrawn to a branch hole rock section, a high-pressure hole packer is installed while drilling, after hydraulic fracturing branch drilling is completed, the drill rod is withdrawn to the branch hole rock section, water pressure in the high-pressure drill rod is increased, when the pressure is increased to 10MPa, a one-way valve of the high-pressure rubber hole packer while drilling is automatically opened, the rubber hole packer expands along with the increase of the water pressure, and finally high-pressure hole packing while drilling is achieved.

When the pressure is continuously increased to 15MPa, the pressure is stabilized for 30min and the interval is 5MPa until the coal seam initiation pressure reaches 20-25MPa, the hydraulic fracturing pump pressure is 35MPa, and the water injection quantity is 100-150m³And adjusting the water injection pressure and the water injection quantity of each fracturing hole according to the actual coal bed conditions, closing the valve of the expansion hole packer after hydraulic fracturing is completed, recovering the drilling state, repeating the steps, performing hydraulic punching, and installing a gas-liquid-solid three-phase separation device for preventing the water injection holes at the orifices.

And after the punching, fracturing and punching work of all the branch drill holes is finished, the gas combined extraction work is implemented. After gas treatment extraction in a stope face region reaches the standard, coal roadway tunneling work is started, and working face bedding drilling hole pre-pumping work is implemented according to the gas treatment effect supplement of the working face.

And (3) when all the branch drilling holes are subjected to all the measures of punching, fracturing and punching, withdrawing the directional drilling machine, and sending the branch drilling holes into a two-hole one-injection hole packer, namely an FK-4/20 rubber hole packer, wherein the hole packing depth reaches the flat position of a hydraulic fracturing main hole, the cement used for grouting needs to be expansion cement, and the grouting pressure is not lower than 2 MPa.

And performing extraction standard-reaching evaluation by using extraction standard-reaching evaluation software in the extraction process, and when the extraction reaches the standard, starting tunneling a coal roadway and implementing regional and local four-in-one comprehensive measures strictly according to the requirements of prevention and control of coal and gas outburst fine rules.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A whole-course gas extraction method for a bottom plate crossing layer of a soft coal seam along a top comb-shaped drill hole is characterized by comprising the following steps:

the method comprises the following steps: drilling a hole from the ground surface to a bottom plate rock stratum, arranging a drilling field (1) at the bottom plate rock stratum, arranging drilling equipment and cement paste equipment in the drilling field (1), drilling an orifice pipe rock hole section (2) in an inclined upward direction by using the drilling equipment, withdrawing a drill rod, inserting an orifice pipe (3) with the length being smaller than that of the orifice pipe rock hole section (2) into the orifice pipe rock hole section (2), repeatedly performing high-pressure grouting on the orifice pipe (3) by using the cement paste equipment, filling cement paste in the orifice pipe (3) and the orifice pipe rock hole section (2), and waiting for solidification of the cement paste;

step two: after the cement paste is solidified, drilling a coal seam hole section (4) in an upward direction from the inside of the orifice pipe (3) by using drilling equipment, enabling the coal seam hole section (4) to penetrate through the soft coal seam to a top rock stratum close to the top plate of the soft coal seam and then fall down, withdrawing the drill rod, injecting high-pressure cement paste into the coal seam hole section (4) by using the cement paste equipment, and waiting for the cement paste to be solidified;

step three: drilling a hole along the coal seam hole section (4) by using drilling equipment, drilling a hydraulic fracturing main hole section (5) in the top plate rock stratum in the horizontal direction after the hole reaches the top plate rock stratum, and simultaneously constructing hydraulic fracturing in the drilling process, wherein the hydraulic fracturing penetrates through the whole hydraulic fracturing main hole section (5);

step four: after the hydraulic fracturing main hole section (5) is drilled, the drill rod is withdrawn, and when the drill rod is withdrawn for a certain distance, the hydraulic fracturing branch hole section (6) is drilled downwards, the hydraulic fracturing branch hole section (6) penetrates through the soft coal seam to the bottom rock stratum, hydraulic fracturing is simultaneously constructed in the drilling process, and the hydraulic fracturing penetrates through the whole hydraulic fracturing branch hole section (6);

step five: after the hydraulic fracturing branch hole section (6) is finished, hydraulic punching is carried out through the drill rod, after the hydraulic punching is finished, the drill rod is withdrawn to the upper end position of the hydraulic fracturing branch hole section (6), and the water pressure in the high-pressure drill rod is increased until the expansion hole packer on the drill rod is opened to carry out hole sealing;

step six: after hole sealing, continuously injecting water into the drill rod, keeping the pressure, maintaining for a certain time, closing the expansion hole sealing device after hydraulic fracturing is completed, and withdrawing the drill rod to a hydraulic fracturing main hole section (5);

step seven: repeating the fourth step to the sixth step to finish the drilling and hydraulic fracturing work of a plurality of hydraulic fracturing branch hole sections (6);

step eight: the drill rod completely exits from the hydraulic fracturing main hole section (5) and the coal seam hole section (4), gas combined extraction work is carried out, after gas treatment extraction in a stope face area reaches the standard, coal roadway tunneling work is started, and working face bedding drilling pre-extraction work is implemented according to the gas treatment effect of a working face;

step nine: and (3) conveying the flat position of the hydraulic fracturing main hole section (5) into an FK-4/20 rubber hole packer, performing extraction standard-reaching evaluation by using extraction standard-reaching evaluation software in the extraction process, and starting tunneling a coal roadway after the extraction reaches the standard.

2. The whole-course gas extraction method for the bottom plate of the soft coal seam through the top comb-shaped drill hole according to claim 1, characterized by comprising the following steps of: in the first step, an anchoring agent is adopted to anchor the orifice pipe (3), a flange plate cover is arranged at the pipe orifice of the orifice pipe (3), and a joint for connecting drilling equipment and cement paste equipment is arranged on the flange plate cover.

3. The whole-course gas extraction method for the bottom plate of the soft coal seam through the top comb-shaped drill hole according to claim 1, characterized by comprising the following steps of: in the first step, thick slurry is injected into the fixed orifice pipe (3) firstly during grouting, then the thin slurry is injected into the fixed orifice pipe (3) to strengthen the fixed orifice pipe, after the thick slurry is solidified for 24 hours, high-pressure grouting is repeated until the pressure resistance is more than 10MPa, and the next procedure is carried out after cement slurry is solidified for 48 hours.

4. The whole-course gas extraction method for the bottom plate of the soft coal seam through the top comb-shaped drill hole according to claim 1, characterized by comprising the following steps of: in the fourth step, when the drill rod is withdrawn by 50-60m in the hydraulic fracturing main hole section (5), one hydraulic fracturing branch hole section (6) is drilled downwards, and a water storage bin for containing water and coal cinder is formed at the bottom of the hydraulic fracturing branch hole section (6) at the position of the bottom rock stratum.

5. The whole-course gas extraction method for the bottom plate of the soft coal seam through the top comb-shaped drill hole according to claim 1, characterized by comprising the following steps of: and in the sixth step, after hole sealing, continuously injecting water into the drill rod, increasing the pressure to 15MPa, and stabilizing for 30 min.