阅读说明：本技术 水平井一井多采联合开采煤层气及煤气化方法 (Horizontal well one-well multi-mining combined coal bed gas mining and coal gasification method ) 是由 邓晓亮 洪雷 周冰 栾天 于 2019-08-05 设计创作，主要内容包括：本发明实施例提供一种水平井一井多采联合开采煤层气及煤气化方法,所述水平井一井多采联合开采煤层气及煤气化方法包括：构建水平通道,在深层煤层中定向钻取水平井；采用油管注入方式,射孔压裂对水平井分段射孔压裂,形成多条相互独立的裂缝；沿压裂处钻取一排多个平行的采气井；通过注气井内的管柱中的电缆加热煤层,改变煤层压力,使得煤层气膨胀增温,通过采气井向上流动采出；由注气井注入空气、氧气和蒸汽,保持地层压力在22.17兆帕以上；通过电缆装入点火线路装置,采用倒退点火方式,点燃地下煤层,使得煤层温度达到578摄氏度以上；氧气与煤燃烧产生二氧化碳和热量。(The embodiment of the invention provides a horizontal well one-well multi-mining combined coal bed gas and coal gasification method, which comprises the following steps: constructing a horizontal channel, and directionally drilling a horizontal well in a deep coal seam; adopting an oil pipe injection mode, and performing sectional perforating fracturing on the horizontal well by perforating fracturing to form a plurality of mutually independent fractures; drilling a row of a plurality of parallel gas production wells along a fracture; heating the coal bed through a cable in a pipe column in the gas injection well, changing the pressure of the coal bed, expanding and heating the coal bed gas, and performing upward flowing extraction through a gas extraction well; injecting air, oxygen and steam from a gas injection well, and keeping the formation pressure above 22.17 MPa; an ignition circuit device is arranged in the underground coal seam through a cable, and the underground coal seam is ignited by adopting a reverse ignition mode, so that the temperature of the coal seam reaches over 578 ℃; the oxygen combusts with the coal to produce carbon dioxide and heat.)

1. a horizontal well one-well multi-mining combined coal bed gas and coal gasification method is characterized by comprising the following steps:

constructing a horizontal channel, and directionally drilling a horizontal well in a deep coal seam;

Adopting an oil pipe injection mode, and performing sectional perforating fracturing on the horizontal well by perforating fracturing to form a plurality of mutually independent fractures;

drilling a row of a plurality of parallel gas production wells along a fracture;

Heating the coal bed through a cable in a pipe column in the gas injection well, changing the pressure of the coal bed, expanding and heating the coal bed gas, and performing upward flowing extraction through a gas extraction well;

Injecting air, oxygen and steam from a gas injection well, and keeping the formation pressure above 22.17 MPa;

An ignition circuit device is arranged in the underground coal seam through a cable, and the underground coal seam is ignited by adopting a reverse ignition mode, so that the temperature of the coal seam reaches over 578 ℃;

The oxygen and coal are combusted to produce carbon dioxide and heat;

When the combustion reaction is finished, the oxygen is completely consumed, and carbon dioxide and coal generate carbon monoxide and hydrogen under the action of heat;

the heat acts on the coal bed in the dry area to release coal bed gas; reacting carbon monoxide with hydrogen, carbon dioxide and hydrogen to produce methane;

and discharging carbon monoxide, hydrogen and methane through the gas production well.

2. The horizontal well one-well multi-production combined mining coal bed gas and coal gasification method according to claim 1, wherein the horizontal well one-well multi-production combined mining coal bed gas and coal gasification method further comprises: and injecting nuclear waste into the coal bed at the bottom of the well through the horizontal well, and reacting with the residual coal in the well to generate carbon monoxide and methane.

3. the horizontal well one-well multi-production combined coal bed gas and coal gasification method according to claim 1, wherein the tubular column is a solid cement rubber ring, an ignition line device is wrapped at the center of the cross section of the tubular column, a first ceramic cable and a second ceramic cable are respectively arranged at the upper end and the lower end of the cross section of the tubular column, and the first ceramic cable and the second ceramic cable are positioned outside the ignition line device.

4. the horizontal well one-well multi-production combined coal bed gas production and coal gasification method according to claim 1, wherein the interval between every two gas production wells is 30-80 meters.

5. The horizontal well one-well multi-production combined mining coal bed gas and coal gasification method according to claim 3, wherein the first ceramic cable and the second ceramic cable are symmetrically arranged around the ignition circuit device.

Technical Field

The invention relates to a coal bed gas and coal gasification method, in particular to a horizontal well one-well multi-mining combined coal bed gas and coal gasification method.

background

underground coal gasification has become an important direction for coal resource exploitation. However, in the conventional coal combustion method, natural coal bed gas components in the coal bed are ignored, and a large amount of gas is generated in the coal formation process, wherein a part of the gas is distributed in holes and cracks of the coal bed and is transported in the holes and the cracks of the coal bed. Therefore, the coal bed is not only parent rock of the coal bed gas, but also a place layer of gas storage is source rock of the coal bed gas and a place of gas storage.

In the process of implementing the invention, the inventor finds that at least the following problems exist in the prior art: natural coal bed gas in the coal bed can not be exploited in a large scale, and resource waste is caused.

Disclosure of Invention

The embodiment of the invention provides a horizontal well one-well multi-mining combined coal bed gas mining and coal gasification method, which solves the problem that natural coal bed gas in a coal bed cannot be mined in a large scale.

The embodiment of the invention provides a horizontal well one-well multi-mining combined coal bed gas and coal gasification method, which comprises the following steps:

Constructing a horizontal channel, and directionally drilling a horizontal well in a deep coal seam;

Optimizing the structure in the well, and performing horizontal well staged fracturing by adopting an oil pipe injection mode and a pressurized perforation integrated technology to form a plurality of mutually independent fractures;

Drilling a row of a plurality of gas recovery wells at the fracturing part;

Heating the coal bed through a cable in a pipe column in the gas injection well, changing the pressure of the coal bed, expanding and heating the coal bed gas, and performing upward flowing extraction through a gas extraction well;

injecting air, oxygen and steam from a gas injection well, and keeping the formation pressure above 22.17 MPa;

an ignition circuit device is arranged in the underground coal seam through a cable, and the underground coal seam is ignited by adopting a reverse ignition mode, so that the temperature of the coal seam reaches over 578 ℃;

The oxygen and coal are combusted to produce carbon dioxide and heat;

when the combustion reaction is finished, the oxygen is completely consumed, and carbon dioxide and coal generate carbon monoxide and hydrogen under the action of heat;

the heat acts on the coal bed in the dry area to release coal bed gas; reacting carbon monoxide with hydrogen, carbon dioxide and hydrogen to produce methane;

and discharging carbon monoxide, hydrogen and methane through the gas production well.

Preferably, the horizontal well one-well multi-production combined coal bed gas and coal gasification method further comprises the following steps: and injecting nuclear waste into the coal bed at the bottom of the well through the horizontal well, and reacting with the residual coal in the well to generate carbon monoxide and methane.

Preferably, the tubular column is a solid cement rubber ring, the ignition circuit device is wrapped at the center of the cross section of the tubular column, the upper end and the lower end of the cross section of the tubular column are respectively provided with a first ceramic cable and a second ceramic cable, and the first ceramic cable and the second ceramic cable are positioned outside the ignition circuit device.

Preferably, each gas production well is spaced 30-80 meters apart.

Preferably, the first ceramic cable and the second ceramic cable are symmetrically disposed about the ignition circuit arrangement.

the technical scheme has the following beneficial effects: because the technical means of the heating pipeline is adopted, the technical effects of exploiting the coal bed gas existing in the coal bed in advance and better utilizing natural energy are achieved.

drawings

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a front view of the deployment pattern of the present invention;

FIG. 2 is a cross-sectional view of a tubular string of the present invention;

FIG. 3 is a plan view of a tubing string of the present invention;

Reference numerals: 1. the method comprises the following steps of the ground, 2, a coal bed, 3, a gas injection well, 4, a gas production well, 5, a horizontal channel, 6, an ignition circuit device, 7, a first ceramic cable and 8, wherein a cement rubber ring is sleeved and fixed.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides a horizontal well one-well multi-mining combined coal bed gas and coal gasification method, as shown in fig. 1 and 2, the horizontal well one-well multi-mining combined coal bed gas and coal gasification method comprises the following steps:

constructing a horizontal channel 5, and directionally drilling a horizontal well in a deep coal seam; the horizontal channel is positioned in the coal seam 2, so that the coal seam is conveniently heated;

Adopting an oil pipe injection mode, and performing sectional perforating fracturing on the horizontal well by perforating fracturing to form a plurality of mutually independent fractures; the formed cracks can fracture the coal bed, so that coal bed gas in the coal bed can be conveniently overflowed, and a gas recovery well can be conveniently arranged after fracturing;

Drilling a row of a plurality of parallel gas production wells 4 along the fracturing position of the ground 1; by the arrangement, the horizontal channel is divided into a plurality of sections, so that coal bed gas, carbon monoxide and hydrogen can be conveniently extracted in sections;

heating the coal bed through a cable in a pipe column in the gas injection well, changing the pressure of the coal bed, expanding and heating the coal bed gas, and performing upward flowing extraction through a gas extraction well; namely, the coal bed gas is extracted by heating by applying the principle of expansion with heat and contraction with cold;

injecting 3 air, oxygen and steam from the gas injection well, and keeping the formation pressure above 22.17 MPa; this pressure is one of the conditions under which the following chemical reaction takes place;

the cable is arranged in an ignition circuit device 6, and the underground coal seam is ignited by adopting a reverse ignition mode, so that the temperature of the coal seam reaches over 578 ℃; the temperature is one of the conditions for the following chemical reactions, namely, the ignition mode is reversed, namely, the coal bed is combusted in a sectional manner from a gas production well close to a gas injection well to the direction departing from the gas injection well, the coal bed is combusted in a sectional manner, one section is combusted, the coal bed is discharged through the gas production well, and then the next section is combusted;

the oxygen and coal are combusted to produce carbon dioxide and heat; the generated heat serves as a condition for the following chemical reaction;

when the combustion reaction is finished, the oxygen is completely consumed, and carbon dioxide and coal generate carbon monoxide and hydrogen under the action of heat; i.e. reduction of carbon dioxide, CO₂+C＝＝2CO—162.4MJ/kmol；

The heat acts on the coal bed in the dry area to release coal bed gas; reacting carbon monoxide with hydrogen, carbon dioxide and hydrogen to produce methane; methanation reaction: CO +3H₂＝＝CH₄+H₂O+206.4MJ/kmol；2CO+2H₂＝＝CH₄+CO₂+247.4MJ/kmol；CO₂+4H₂＝＝CH₄+2H₂O+165.4MJ/kmol；

discharging carbon monoxide, hydrogen and methane through a gas production well; and a plurality of packers are arranged at the bottoms of the gas production well and the gas injection well and used for fire prevention.

Preferably, the horizontal well one-well multi-production combined coal bed gas and coal gasification method further comprises the following steps: injecting nuclear waste into a coal bed at the bottom of the well through a horizontal well, and reacting with the residual coal in the well to generate carbon monoxide and methane; the nuclear waste generates heat energy, and the residual coal is subjected to chemical reaction to produce carbon monoxide and methane.

Preferably, as shown in fig. 2 and 3, the tubular column is a solid cement rubber ring 8, the ignition circuit device is wrapped at the center of the cross section of the tubular column, the upper end and the lower end of the cross section of the tubular column are respectively provided with a first ceramic cable 7 and a second ceramic cable, and the first ceramic cable and the second ceramic cable are positioned outside the ignition circuit device; arc grooves are reserved on the upper part and the lower part of the pipe column, and the pipe column appropriately assists in heat insulation cement cementation.

preferably, each gas production well is spaced by 30-80 meters; the interval between gas production wells is 30-80 meters, so that the coal in each section of gas production well can be conveniently and fully reacted, and the energy waste is avoided.

preferably, as shown in fig. 2, the first ceramic cable and the second ceramic cable are symmetrically disposed about the ignition circuit means; the vertical heating of the pipe column is facilitated.