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Reverse circulation aerodynamic cavitation method for coalbed methane well and equipment

An aerodynamic and coalbed methane well technology, which is applied in the direction of earthwork drilling, wellbore flushing, wellbore/well components, etc., can solve the problem of inability to achieve the purpose of low-rank coal and fragmented coal drainage, coalbed methane exploitation, horizontal Problems such as high risk of branch wells can solve the damage of working casing and scrapping of drilling tools, reduce the possibility of wellbore scrapping, and avoid the effect of wellbore scrapping

Active Publication Date: 2012-12-12
河南省资源环境调查二院
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AI Technical Summary

Problems solved by technology

The currently used perforation and fracturing drainage technologies for low-rank coal seams cannot achieve the purpose of drainage due to the low closure strength and the cracks formed by fracturing are easy to reclose.
For fragmented coal, the cracks mainly develop along the weak structural plane in the coal seam. Because of the presence of fine coal powder in the structural plane, it is easy to block the cracks formed by fracturing, so it is difficult to achieve the purpose of drainage; mechanical cave completion drainage Due to the small caves formed, the exposed coal seam surface area is small, and the coal seam permeability is low, the purpose of drainage and mining of low-rank coal and fragmented coal cannot be realized; the risk of constructing horizontal branch wells in low-rank coal and fragmented coal seams Extremely large, mainly because the coal seam is soft and broken, and it is easy to collapse and cause drilling accidents, so it is impossible to realize the exploitation of coalbed methane in low-rank coal seams and fragmented coal seams

Method used

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  • Reverse circulation aerodynamic cavitation method for coalbed methane well and equipment

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Embodiment Construction

[0015] In conjunction with the accompanying drawings, specific embodiments of the present invention are given below, but the present invention is not limited to the following embodiments. As shown in the figure, in this embodiment, a booster 23, an air compressor 24, 25, a blowout preventer 10, an upper cross 9, a lower cross 14, and a high-pressure grouting pump are installed on the wellhead casing head 16. 22. Coal bed methane well reverse circulation aerodynamic cavitation equipment composed of kill manifold 20, hydraulic ram valve 4, pipelines and valves. The specific connection method is as follows:

[0016] A short joint 17 is connected to the wellhead casing head 16, and the bottom flange 15, the lower cross 14, the blowout preventer 10, the annular steel plate 8, the upper cross 9, and the blind plate 1 are sequentially connected to the short joint; The left port of 14 is connected with the flow measuring pipeline 12, and a gate valve 13 is arranged at the connecting ...

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Abstract

The invention discloses a reverse circulation aerodynamic cavitation method for a coalbed methane well and equipment. The reverse circulation aerodynamic cavitation method comprises the following steps of: arranging wellhead equipment on a wellhead and sinking a working pipe to a bottom hole; clearly eliminating rock coal dust and water inside the well by using an air compressor in a circulating way; then lifting the working pipe upwards and injecting air / foam by using the air compressor and a supercharger, wherein the air injecting pressure is 3-15 MPa; meanwhile continuously injecting atomized water into the well with the water injecting amount of 3.0-5.0 m<3> each time; opening a hydraulic flat plate gate valve for discharging; after discharging, sinking the working pipe to a coalbed part; injecting the air simultaneously by the air compressor and the supercharger; meanwhile injecting water / foam with the amount of 3.0-10.0 m<3> by using an injection pump for washing the well to thebottom hole; after completing one cycle of discharging and well washing, detecting initial data; closing the air compressor, the supercharger, the injection pump and the hydraulic flat plate gate valve to enable gas inside the well to return freely; measuring the change of gas output of coalbed gas in one hour by using a flow meter; and placing a torch at a discharge port to ignite the gas. The invention improves the construction safety, improves the yield of single well coalbed gas, and saves the construction cost.

Description

technical field [0001] The invention belongs to the technical field of coal bed gas well completion, and mainly relates to a reverse circulation aerodynamic cavitation method and equipment for coal bed gas wells. Background technique [0002] Among the proven coal reserves, low-rank coal, fragmented coal and soft coal seams account for a considerable proportion, and the abundant coalbed methane (mainly composed of gas) contained in coal seams is not only the main safety hazard of coal mining, but also a A new type of clean energy. The currently used perforation and fracturing drainage technologies for low-rank coal seams cannot achieve the purpose of drainage because of their low closure strength, and the cracks formed by fracturing are easy to reclose. For fragmented coal, the cracks mainly develop along the weak structural plane in the coal seam. Because of the presence of fine coal powder in the structural plane, it is easy to block the cracks formed by fracturing, so it...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E21B21/00E21B21/10E21B43/20E21B47/00
Inventor 何新安张建奇李宏伟雷华友张志冯跃封罗锐朱玉新傅在林耿建国彭桂湘袁志坚
Owner 河南省资源环境调查二院
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