SU1452980A1 - Method of monitoring coal seam disturbances - Google Patents

Abstract

The invention relates to mining. The goal is to increase the information content of the control by determining the type of violation. A channel wave is emitted into the coal seam. In one of the parallel mining fields, a channel wave passing through the formation is recorded, and in another development, a reflected channel wave is recorded. The propagation time and amplitude of the envelopes of the transmitted and reflected channel waves are measured. The coefficient η is determined, equal to the product of the time of propagation of the transmitted wave by the amplitude of its envelope to the product of time P. :: the separation of the reflected wave by the amplitude of its envelope. The presence and type of narcnies are determined by value. In the case of a reservoir thinning, its relative value is determined by the formula Z ut / d ij A., P / A, 7 - xxlEr (Apr.A.A.R.) where Zyr is the thickness of the reservoir in the area of thinning; d - reservoir thickness in the undisturbed part of the APR, A crf amplitude of the bending wave of transmitted and reflected channel waves. The method allows to determine the presence of irregularities in the reservoir, their type and characteristic dimensions. 1 ce f-ly, 1 ill. se 4 Oi yu 00 o

Description

The invention relates to mining and is intended to identify structural inhomogeneities in a coal seam.

The purpose of the invention is to increase the information content of the control by determining the type of violation.

The drawing shows the measurement scheme.

The diagram shows: coal seam 1, hauler yutrek 2, vent drift 3, area 4 of seam disturbance, emitter 5 of elastic waves. receivers 6 and 7 elastic waves.

The method is carried out as follows.

On the outcrops of the coal seam 1, which goes into parallel mine workings 2 and 3, have an emitter 5 of elastic waves and a seismic receiver for

ten

15

20

oTf amplitudes of the envelopes of the transmitted and reflected channel waves,

Example. The described method for controlling coal seam violations was practically used to emit the structure of a coal seam at the mine. Thus, during measurements in lava, the described measurement scheme was used to study the thinning of the coal seam.

The excitation of elastic waves was carried out by striking the exposed surface of the reservoir, the reception by the CB-30 seismic detectors, and recording by means of the SNC-E seismic station. The recorded seismograms determine the amplitudes of the envelopes of the transmitted and reflected channel waves, which correspond to the propagation of the transmitted and reflected

25 channel waves, respectively, t

82 ms and 9.5

ms

(Y

ki 6 and 7, while one of the seis 1s were A pp 11. Simulators (7) are located on the same area of Aotr 43 conventional units, as well as the surface time as the radiator, at distances from 10 to 20 m. With the help of radiator 5, an elastic channel wave is emitted into a coal seam which is received and recorded by the seismic receiver 6, by measuring the time / li, we get h /, and m the propagation of the transmitted wave from 30 1 0.37. Received information

Substituted measured values

PR ref with PR

AND

formulas, we get 2.25

t ref to specified

emitter to receiver 6 and the amplitude of its envelope. At the same time, the reflected wave I is received and recorded with the help of the seismic receiver 7, j; the propagation time of this wave is measured; waves from the transmitter to the receiver and the amplitude of the envelope. From the measured values of amplitudes and times, a coefficient 1 is calculated, which is equal to the ratio of the products of the propagation time of the transmitted wave to the amplitude of its envelope and the product of the propagation time of the reflected wave and the amplitude of its envelope. The state of the reservoir is judged by the calculated value of the coefficient i.

At the same time, if 7.10, then the reservoir is sustained in power, if it is 0.05, then the reservoir contains a fault, and if 0.05 h is 10, then the reservoir contains thinning, the relative value of which is determined by the formula

35

tested using control drilling, which showed that the actual ratio of the test site is in the range of 0.3-0.45.

Thus, the method makes it possible to increase the information content of monitoring violations by determining their type and characteristic parameters.

40

formula isob

Rete n i

50

1. The method of monitoring coal seams violations, including the excitation of d channel waves in the study area from the exposed surface of the reservoir, their reception after passing the test section and measuring the propagation time of the incoming canal waves, from the fact that, in order to increase the information content of control, by determining of the type of violation, additionally receive the reflected channel wave on the same surface with which the excitation was carried out, the time of propagation of the reflected wave and the ampoule about ibayuschih transmitted and reflected waves and determining otno g

Apr

open

(H

V, H-1

BUT

 den

ZVTd seam thickness in the area

thinning

reservoir thickness in the area

undisturbed part;

0

five

0

oTf amplitudes of the envelopes of the transmitted and reflected channel waves,

Example. The described method for controlling coal seam violations was practically applied when emitting the structure of a coal seam at the mine. Thus, during measurements in lava, the described measurement scheme was used to study the thinning of the coal seam.

The excitation of elastic waves was carried out by striking the exposed surface of the reservoir, the reception by the CB-30 seismic receivers, and recording by means of the SNC-E seismic station. The recorded seismograms were used to determine the amplitudes of the envelopes of the transmitted and reflected channel waves, which respectively amounted to A pp 11. Aot 43 conventional units, as well as the time of spreading / li, we get h /, and 0 1 0.37. Received information

past and reflected space

channel waves, respectively, t

82 ms and 9.5

ms

(Y

Actually, we made A pp 11 Aotr 43 const. units, as well as the time of expansion, if we get h /, and 1 0.37. Received information

Substituted measured values

Actually, we made A pp 11 Aotr 43 const. units, as well as the time of expansion, if we get h /, and 1 0.37. Received information

PR ref with PR

AND

formulas, we get 2.25

t ref to specified

 Actually, we made A pp 11 Aotr 43 const. units, as well as the time of expansion, if we get h /, and 30 1 0.37. Received information

35

tested using control drilling, which showed that the actual ratio of the test site is in the range of 0.3-0.45.

Thus, the method makes it possible to increase the information content of monitoring violations by determining their type and characteristic parameters.

40

formula isob

Rete n i

0

1. The method of monitoring coal seams violations, including the excitation of canal waves in the study area from the exposed surface of the reservoir, their reception after passing the test section and measuring the propagation time of the incoming canal waves, from the fact that, in order to increase the information content of control, by determining the type violations, additionally take the reflected channel wave on the same surface with which the excitation was carried out, measure the time of propagation of the reflected wave and amplitude of fire bayuschih transmitted and reflected waves and determining the ratio of hours, the product of the propagation time of the transmitted wave on the amplitude of its envelope to the product of the propagation time of the reflected wave on the amplitude of its envelope, and its magnitude determined type disorders.

2. Method POP.1, characterized in that in determining thinning, its relative value is determined by the formula

corner

/ d (1 + refill-)

 den

den

Z

g

- formation thickness in the area of thinning;

- seam thickness in the undisturbed part;

 etc.

Adr are the amplitudes of the envelopes of the transmitted and reflected channel waves.

Claims (2)

Claim 1. A method of monitoring violations of a coal seam, including the excitation of channel waves in the studied area from the exposed surface of the formation, their reception after passing the controlled area and measuring the propagation time of the transmitted channel Waves, characterized in that, in order to increase the information content of the control by determining the type of violation, additionally receive the reflected channel wave on the same surface ₍ with which the excitation was carried out, measure the propagation time of the reflected wave and the amplitudes of the envelope x of the transmitted and reflected waves and determine the ratio ζ of the product of the propagation time of the transmitted wave and the amplitude of its envelope to the product of the propagation time of the reflected wave and the amplitude of its envelope, and determine the type of violation by its magnitude. 2. The method of pop. 1, characterized in that when determining thinning, its relative value is determined by the formula h / j And pr / 4. . And pr _h ζ ut / a = 1 ---- (1 + c. ------)> ^And OTR * neg where Ζ is the thickness of the reservoir in the region of thinning; d is the thickness of the reservoir in the undisturbed part; Ave And _oTr are the amplitudes of the envelopes of transmitted and reflected channel waves. * -v Editor S. Baker Compiled by K. Lykov Tehred L. Oliinyk Corrector S. Cherni Order 7145/24 Circulation 449 Subscription VNIIIPI State 113035, Committee for Inventions and Discoveries under the USSR SCST Moscow, Zh-35, Raushskaya nab., D. 4/5 Production and printing company, Uzhhorod, st. Project, 4