SU1439260A1 - Method of checking condition of coal seam pre-face portion - Google Patents

Abstract

The invention relates to mining and can be used in the current forecast of steep seams for outburst hazard. The goal is to monitor the state of the bottomhole seismic coal seams. After the removal of the regular chips, the condition of the coal seam (UE) is determined. A sensor is fixed on the exposed surface of the UE. At a distance of 0.5-1.2 m from the place of installation of the sensor, by means of hitting the strength gauge, a dynamic impact on the PN is carried out. The impact is made on the weakest seam. The maximum amplitude of the acceleration of the vibroprocess is determined in the direction towards the exposed surface of the UE in the frequency range 0.5-10 Hz. Determine the strength of the weakest layer at the time of impact on it by the strength gauge. When assessing the state of the bottom-hole part of the UE as a characteristic of the response of the UE to the impact, use Q of the product of the values of the average strength per square of the maximum amplitude of the acceleration of the vibration process. By comparing the obtained characteristics of the UE reaction to the dynamic action with their criterion values, the state of the bottom-hole part of the UE is determined. cl

Description

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Is9

1A

The invention relates to mining and can be used in the current prediction of steep seams for outburst risk, worked out by shield units.

The purpose of the invention is to monitor the state of the bottomhole seismic coal seams.

The method is carried out as follows.

I Immediately after the extraction of the next coal shavings, before planting the switchboard assembly, a low-frequency accelerometer is attached to the exposed surface of the coal seam, and contactless measurement of vibration parameters is possible using a laser vibrometric system. At a distance of 0.5–1.2 m from the installation site of the sensor, it was struck with the help of a strength gauge, and the intrusion depth was read on the scale of the strength gauge. Blow to the seam that finds

g - 800 with 95

kgf / cm

where q 100 - h;

h is the depth of penetration, and the response rate of the reservoir is determined by the formula

f (80 -G,). BUT

TO

hedgehog

where A is the acceleration amplitude,

n - the number of measurements. After the next strip has been removed, the measurements are repeated. Monitoring of the state of the downhole part of the reservoir is carried out by comparing the obtained values of K with the criteria values obtained earlier in non-hazardous zones.

Formula of invention

The method of monitoring the state of the near-bottom part of the coal seam, including determining the state of the seam of the seam, creating additional

c in extremely stressful unstable-25 loads, the setting of the equilibrium state, causes the appearance and propagation of various types of elastic waves, the maximum amplitude of which in the near zone are surface relay waves, and also in some local areas provokes further destruction coal due to rock pressure forces. At these distances, these processes are practically not separated in time and superimposed on each other. In the case of low stress gradients near the exposure of the coal seam to the destruction of the coal seam, the level of fluctuations in the ultrasonic frequency range is significantly reduced. The maximum amplitude of acceleration of vibroprocesses in the direction of

measuring the response characteristics of the reservoir to the dynamic impact, assessing the state of the bottomhole coal seam by them by comparing the obtained characteristics of the reaction of the reservoir to the dynamic impact with their criterion values, which are different in that in order to monitor the state of the bottomhole formation , the dynamic impact on the reservoir is produced by striking the normalized intensity at the weakest layer by the strength gauge at the end of the excavation cycle, and the maximum battening acceleration amplitude vibroprotsessa towards obnazhennoy.poverhnosti coal seam in the range of 0.5-10 Hz frequency and strength nai-

The scientific research institutes of the free surface as a result of the impact are fixed with a peak detector jj of a weaker interlayer at the moment through a band-pass filter in the impact range of the strength indicator, and at frequencies of 0.5-10 Hz. Coverage measurements — assessing the state of the bottom-hole part, produce about a third of the lava from the interface with the ventilator, as the most hazardous. -N measurements are taken on the weakest seam. Based on the measurement results, the tensile strength is calculated using the formula

The coal seam uses the product of the values of the averaged strength indicator and the square of the maximum amplitude of acceleration of the vibroprocess.

VNIIPI Order 6051/32

Random polygons pr-tie, Uzhgorod, st. Project, 4

measuring the response characteristics of the reservoir to the dynamic impact, evaluating the state of the bottomhole coal seam by them by comparing the obtained characteristics of the reaction of the reservoir to the dynamic impact with their criterion values, characterized in that dynamic impact on the formation is made by impact of the normalized intensity at the weakest interlayer by the strength gauge at the end of the excavation cycle, and the maximum battening acceleration amplitude vibroprotsessa towards obnazhennoy.poverhnosti coal seam in the range of 0.5-10 Hz frequency and strength nai-

weaker interlayer at the moment of impact on it by the strength gauge, and when assessing the state of the bottom hole

weaker interlayer at the moment of impact on it by the strength gauge, and when assessing the state of the bottom hole

The coal seam uses the product of the values of the average strength factor and the square of the maximum amplitude of the acceleration of the vibroprocess as a characteristic of the reaction of the seam to the impact.

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Claims (1)

Claim A method for monitoring the state of the bottom-hole part of a coal seam, including determining the state of interlayers of the formation, creating additional dynamic loads, installing a sensor, measuring the characteristics of the reaction of the formation to dynamic impact, evaluating the state of the bottom-hole part of the coal seam by comparing the obtained characteristics of the reaction of the formation to dynamic effects with their criteria values, characterized in that, in order to monitor the state of the bottom-hole part of seismically active coal seams, The seam impact is produced by impacting a normalized intensity on the weakest layer with a strength meter at the end of the excavation cycle, while determining the maximum amplitude of the acceleration of the vibrating process towards the exposed surface of the coal formation in the frequency range 0.5-10 Hz and the strength of the weakest layer at the time of impact according to it, with a strength meter, and when assessing the state of the bottom-hole part of a coal seam, the product of the mean values so far STUDIO strength the square of the maximum amplitude of acceleration vibroprotsessa. VNIIIPI Order 6051/32 Circulation 426 Subscription Custom Ioliger ave, city of Uzhhorod, st. Project, 4