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Rapid air leakage detection method for underground goaf

A detection method and goaf technology, applied in the direction of detecting the appearance of fluid at the leak point, using liquid/vacuum degree for liquid tightness measurement, etc., can solve the problem of slow gas migration, slow detection process, and untimely gas samples collection, etc.

Active Publication Date: 2021-06-01
CHINA UNIV OF MINING & TECH
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Problems solved by technology

[0005] At present, the method of direct release of tracer gas is generally used in the detection of air leakage in the goaf. In practical applications, due to the slow gas migration in the goaf (usually less than 0.1m / min), the SF 6 The migration of gas inside the goaf is extremely slow, and the length of the air leakage and gas migration path in the large-scale gob is at least thousands of meters. Slow, resulting in the failure to collect gas samples in time, resulting in low accuracy of air leakage detection results in gobs

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[0047] In order to make the purpose, technical solution and advantages of the present application clearer, the present application will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present application, and are not intended to limit the present application.

[0048] Taking the implementation background of the 2-1 coal seam in a mine in the south of Ordos, China as an example: the geological structure of the 2-1 coal seam in a mine in the south of Ordos is simple, with an overall dip angle of 1°-3° and a local dip angle of 5°-6°, which is a gently inclined coal seam. The buried depth is 634m-638m, the average thickness of the coal seam is 2.77m, and the bulk density is 1.31t / m 3 . There are three working faces 21102, 21103 and 21104 arranged side by side. The length of each working face is about 320m, and a 30m-wide isolated co...

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Abstract

The invention relates to a rapid air leakage detection method for an underground goaf. The method comprises the following steps: determining release points and sampling points of air leakage detection of a to-be-detected goaf according to an internal structure and a pressure difference test of the to-be-detected goaf; injecting nitrogen into the to-be-detected goaf at the release point, releasing SF6 gas into the to-be-detected goaf from the release point after monitoring that the flow and the pressure of the nitrogen injection pipe are stable, and recording the release time; when SF6 gas is monitored at each sampling point, collecting a gas sample; detecting the SF6 concentration of each gas sample through a gas chromatograph, and determining the SF6 concentration of the gas sample collected at each sampling point at each sampling time; and according to the shortest air leakage distance between the release point and each sampling point, the release time, the SF6 concentration of each sampling point at each sampling time, the sampling time of SF6 detected by each sampling point for the first time and the sampling time of SF6 detected by each sampling point at the maximum concentration, rapidly obtaining the air leakage condition of the to-be-detected goaf.

Description

technical field [0001] The present application relates to the technical field of coal mines, in particular to a rapid air leakage detection method in underground mined-out areas. Background technique [0002] The broken coal left in the goaf after coal seam mining is extremely prone to spontaneous combustion under the condition of continuous air leakage from the working face and the cracks in the isolated coal pillar. Spontaneous combustion of coal incomplete combustion produces a large amount of CO, C 2 h 6 and other harmful gases, causing the concentration of harmful gases underground to exceed the standard, endangering the life safety of mine workers and affecting the normal production of coal mines. [0003] With the depletion of coal resources in eastern China and industrial transformation, the focus of coal mining in China has gradually shifted to the western region. Due to the small inclination angle of the coal seam and good geological conditions, most of the mine...

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Application Information

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IPC IPC(8): G01M3/20
CPCG01M3/20
Inventor 秦波涛罗中正卓辉史全林胡海军徐镱桢盛鹏田思雨徐向岑
Owner CHINA UNIV OF MINING & TECH
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