SU1102986A1 - Method of preventing outbursts - Google Patents

Abstract

1. A METHOD FOR PREVENTING EMISSIONS, including vibro-processing of an outburst-hazardous coal array, carried out continuously by moving a vibrating radiator, and subsequent excavation of a coal seam, characterized in that, in order to increase the reliability and efficiency of preventing emissions by evenly and deeply developing filtration cracks, changing the pressure of the cracks in the floor, changing the pressure from the uniform and deep development of the seepage cracks, changing the pressure in the reservoir. neither the properties of the coal mass and the implementation of a deeper degassing of the mass to be excavated in the unloaded zone of the reservoir, parallel to the line and clearing the slab over its entire length as the clearing slab line progresses a number of wells, the first well is drilled at a distance from the bottom factor-safe bottom line, and the array is vibrated to be drilled as it is drilled - the vibrators, while the vibroelectric radiator is moved along the entire length of the well in order to observe rigid contact the vibro emitter — solid coal with a simultaneous increase in the temperature of the coal around this well, and the speed of the vibrating radiator is determined from Ole e vAcr RLS vibroizluchatel length, where the value t IopHoro pressure ist; frequent exposure; s p with the amplitude of emissions; (L is constant, depending on the reservoir properties, its temperature and the distance between the squiggins. 2. The method according to claim 1, characterized in that the wells after vibro-processing are connected to the degassing network, and in the evacuation mode, gas is sucked from wells up to the moment of their destruction during coal extraction. 3. The method according to claim 1, which means that with a large reservoir thickness in the plane perpendicular to the roof-soil of the reservoir, the most hazardous and its powerful pack is drilled with a series of wells and vibrate them one way. simultaneously with the main row of wells.

Description

The invention relates to the mining industry and can be used when carrying out cleaning works on outburst coal seams. A known method of pre-loosening a coal seam includes installing in special niches in the drift and vent lines of vibrators, which impart to the array counter oscillations that are tuned to resonance with the natural vibrations of the treated array 1 3. The disadvantage of this method is that use on outburst formations c. the moment of the occurrence of the counter oscillations in rezence with the natural oscillations of the massif, an outburst may occur, especially if there is a reservoir near the slaughter in the generation of geological disturbances, which are the ways of the instantaneous movement of gas from the areas of elevated pressure to the generation. The closest in technical essence and the resulting. The result of the present invention is a method for the prevention of outliers, which includes the vibration treatment of an outburst-hazardous coal array, which is carried out continuously by moving the vibration radiator following the combine as it progresses and excavation. The disadvantage of this method is that in layers with increased outburst hazard, along the length of the cleaning line, the outburst hazard of the coal mass varies considerably by zones. As a result, when vibrations are applied to the bottomhole zone, the vibration parameters should change, otherwise the frequency of the vibro-radiation pulses can penetrate into the resonance of any of the outburst zones and cause the emission of coal and gas. The purpose of the invention is to improve the oversight and efficiency of the prevention of emissions by uniformly and deeply developing filtration cracks, changing the stress state and properties of the coal massif and realizing a deeper degassing of the massif to be excavated. This goal is achieved in that according to the method, which includes vibro-processing of an outburst-hazardous coal array, it is carried out continuously by moving the vibration emitter and the subsequent excavation of the coal seam, parallel to the line of the clearing hole for its entire length as the clearing line moves, the drill a series of wells, the first well is drilled at a distance from the bottom line, safe by the emission factor, and the array is vibrated to be machined as the wells are drilled, starting with the least borehole, while vibrating radiators are moved along the entire length of the borehole with observance of rigid contact vibrating radiator-monolithic coal with simultaneous increase of coal temperature around this borehole, and the velocity of the vibrating radiator is determined by the formula y.St. P is the amplitude of the pulses, C is constant, depending on the properties of the formation, its temperature and the distance between the wells. After treatment, the wells are connected to a degassing network, and in vacuuming mode, gas is sucked from the wells up to the moment of their destruction during coal mining. With a large reservoir thickness in the plane perpendicular to the roof of the reservoir, an additional row of wells is drilled in the most outburst and powerful pack, and they are vibrated at the same time as the main row of wells. The method for preventing emissions of coal and gas is as follows. From the haulage or vent drift, the boreholes are drilled parallel to the downhole cleaning line as the cleaning line advances the entire bottomhole distance from each other, not exceeding 1-3 seam thickness. The vibration emitter is set alternately as the wells are drilled to the least remote. Then the source of the oscillations is continuous.

Claims (3)

1. EMISSION PREVENTION METHOD, including the vibration processing of the outburst coal mass, carried out continuously by moving the vibration emitter, and? the following recess of the coal seam, characterized in that, in order to increase the reliability and efficiency of preventing emissions by uniform and deep development of filter cracks, changing the stress state and properties of the coal mass and performing deeper degassing of the mass to be excavated in the unloaded zone of the seam, parallel to the line a number of wells are drilled along its entire length as the production line moves forward, a number of wells are drilled at the first well at a distance from the bottom line, which is safe for the factor outbursts, and the array is vibrated as the wells are drilled, starting from the least distant well *, while the vibrator is moved along the entire length of the well with strict contact, the vibrator is monolithic coal with a simultaneous increase in the temperature of the coal around the well, and the velocity of the vibrator determined by the formula where is the length of the vibrator ·, - Mountain pressure value; · ω - frequency of exposure; P is the amplitude of the emissions; 0 is a constant depending on. reservoir properties, its temperature and the distance between the wells. 2. The method according to claim 1, characterized in that the wells after vibration processing are connected to a degassing network, and in the vacuum mode, gas is sucked out of the wells until they are destroyed when coal is removed. 3. The method according to claim 1, characterized in that with a large reservoir thickness in a plane perpendicular to the roof-soil of the reservoir, in the most outburst-hazardous and powerful bundle, an additional row of wells are drilled and they are vibrated simultaneously with the main row of wells.