SU1305380A1 - Method of forecasting outburst hazard of coal seam in working face-adjoining zone - Google Patents

Abstract

This invention relates to the mining industry and can be used. called for the development of outburst coal seams. The goal is to increase the reliability of the forecast by taking into account the gas-thermodynamic and pressure-induced state of the coal seam in the bottomhole zone, taking into account the influence of the mining operation. From the bottom of the excavation, a control well is drilled in the center. Then it is sealed and at the same time the initial gas velocity, the temperature of the gas released from the well and the intensity of the initial deformation of the destruction of the borehole walls, i.e. determination of the configuration and dimensions of the cavity formed during the destruction of the borehole walls; Comparison of the measured values of the gas velocity with its critical values; assessment of the outburst hazard of the formation zone; and determination of the safe depth of coal mining. In the out-of-danger zone, two maxima of the initial gas emission rate and temperature of the released gas are observed along the well length. At the site of maximum increase in the size of the cavity, its larger size is oriented in the plane of the formation. At the same time, mining operations are stopped and anti-blowout measures are carried out. The safe depth of the excavation is taken as the distance from the chest to the wellbore interval to the well interval at which the maximum value of the initial outgassing rate is measured if there is a maximum increase in the size of the cavity and temperature change in this interval. (L her about ate 00 00

Description

The invention relates to the mining industry and can be used in the development of outburst coal seams.

The purpose of the invention is to increase the reliability of the forecast by taking into account the gas-thermodynamic and stress-strain state of the coal seam in the bottom-hole zone, taking into account the effect of downhole mining.

The method is carried out as follows.

A test well with a diameter of, for example, 42 mm in the coal seam with an interval of 0.5–1 mm is drilled from the bottom of the mine working. After the drilling of the well is completed, the depth of the interval is sealed and the initial gas release rate, the temperature of the gas released from the well and the intensity of the initial deformation of the potential energy section of the reservoir are measured simultaneously.

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the walls of the borehole. The latter is carried out by measuring with known methods of dimensions and establishing a con (| igura tion of the cavity formed during the destruction of the borehole walls,

At the site of maximum increase in the size of the cavity, the orientation of its larger size with respect to the plane of the coal seam is measured by setting the cross-sectional configuration resulting from the destruction of the borehole walls.

Simultaneous measurement of the rate of gas injection from the well and the temperature of the omnipresent gas makes it possible to judge the dynamism of the process, since during gas desorption as a result of the destruction of coal under the action of high-i; the geomechanical stresses in the area of the reference load from the influence of the excavation of the mine develops its sharp adiabatic expansion, accompanied by gas cooling. Therefore, the temperature gradient of the gas changes as the well deepens,

geology is a function of geomechanical - including carrying out development, quietness of tension and gas saturation, interval drilling of the control coal seam, and the intensity of the initial deformation of the destruction of the borehole walls reflects the gasdynamic

the state of the coal-gas system and its neither from wells and physicomechanical propensity for spontaneous destruction of coal parameters, comparison of measurements, i.e., to the development of a process of outward values of the gas release rate of the injected emission. its critical values, assessment

in the system, the host rock — coal — gas to a value sufficient to develop a sudden release process. In this case, the mining operations stop and carry out anti-blowout measures,

o In the treatment development, the size of the hazardous zone is limited by neighboring wells, in which no criteria for outburst hazard are established.

If, when probing a well along its length, no outburst-hazardous zone is identified and an interval limiting the safe depth of excavation is not established, then it is assumed to be equal to the depth of the test well minus the received untimely advance

The length of the test wells is 3.5-12 m.

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F o rmula of the invention

The method for predicting the outburst hazard of the coal seam in the bottomhole zone.

wells in the coal seam, well sealing, simultaneous measurement of the initial gas release rate

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After performing measurements at a given interval, the well is deepened by the value of the next interval with repeating the cycle of all measurements,

Based on instrumental measurements made on schachtoplasts of varying degrees of outburst hazard, it was found that in the outburst zone there are two maxima of the initial velocity of the gas release and the temperature of the sitting gas in the wellbore, and in the area of maximum increase in the cavity size, its larger size is oriented in the plane reservoir. The gas-dynamic and strained-formed state of a coal seam with zones of two maxima of the initial gas fission rate and the temperature of the gas produced from the well indicates insufficient relaxation of the reference load stresses and is a sign of accumulation in the bottom hole

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in the system, the host rock — coal — gas to a value sufficient to develop a sudden release process. In this case, the mining operations stop and carry out anti-blowout measures,

In the clearing development, the size of the hazardous zone is limited by neighboring wells, in which no criteria for outliers are established.

If, when probing a well along its length, no outburst-hazardous zone is identified and an interval limiting the safe depth of excavation is not established, then it is assumed to be equal to the depth of the test well minus the received untimely advance

The length of the test wells is 3.5-12 m.

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including the development of production, interval drilling control

F o rmula of the invention

The method for predicting the outburst hazard of the coal seam in the bottomhole zone.

including the development of production, interval drilling control

nor from the wells and physicomechanical parameters of coal, comparing measured values of the gas release rate and its critical values, estimating

wells in the coal seam, well sealing, simultaneous measurement of the initial gas release rate

ejection hazard zone of the reservoir and determining the safe depth of coal excavation, characterized in that, in order to increase the forecast reliability by taking into account gas-thermodynamic and stress-strain state of the coal seam in the bottom-hole zone, taking into account the influence of offshore mining movement, -mechanical parameters measure the temperature of the gas injected from the well and the intensity of the initial deformation of the destruction of the walls of the well by measuring the dimensions and determining the figure formed during the destruction and the walls of the cavern wellbore, while for the safe depth of excavation, about w w is the distance from the sinking chest to the well interval at which the maximum value of the initial

gas release rate in the presence of a maximum increase in the size of the cavity and a change in the temperature gradient of the released gas in this interval, and the bottomhole zone

relate to outburst risk if the maxima of the initial gas-emission rate and the temperature of the released gas are set along the wellbore length, and at the site of maximum increase in the cavity size, its larger size is oriented in the plane of the reservoir.

Claims (4)

Claim A method for predicting the outburst hazard of a coal seam in the near-wellbore zone, including production, interval drilling of control wells in the coal seam, sealing the wells, simultaneously measuring the initial gas release rate from the wells and physico-mechanical parameters of coal, comparing the measured values of the gas evolution rate with its critical values, assessment of the outburst hazard of formation aeons and determination of a safe depth of coal extraction, characterized in that, in order to increase the reliability of the forecast due to This gas thermodynamic and stress-strain state of the coal seam in the bottomhole zone, taking into account the influence of the movement of the bottom face of the mine, measures the temperature of the gas released from the well and the intensity of the initial deformation of the destruction of the walls of the well by measuring the size and establishing the configuration of the formation the walls of the cavity of the cavity, while the safe depth of the excavation is taken to be the distance from the chest of the bottom of the mine to the interval of the well at which measured maximum value of the initial 5 gas evolution rates in the presence of a maximum increase in the size of the cavity on this interval and a change in the temperature gradient of the evolved gas, and the bottom-hole zone 10 are classified as outburst hazardous if two maximums of the initial gas-separation rate and the temperature of the evolved gas are established along the well’s length, and in the area of maximum increase 15 dimensions of the cavity, its larger size is oriented in the plane of the plate ..