SU1059211A1 - Method of determining the degree of shock hazard of rock body - Google Patents

Abstract

METHOD FOR DETERMINING THE DEGREE OF HUMAN RISK OF A MASSIF OF MOUNTAIN BREEDS, including drilling wells, selecting cores, determining the number of convex-concave discs from each running meter of a well and the position of the interval with the greatest number of hazards, determining the criterion values of the degree of outburst hazard and estimating the rock mass according to the degree of hazard, and assessing the rock mass range by the degree of hazard, and assessing the level of outburst hazard and assessing the rock mass by degree of hazard, the degree of hazard, and assessing the rock mass range by the degree of hazard. that, in order to increase the reliability of determining the degree of shock hazard by taking into account the stress state of the array, determine the direction of action of the maximum the main stress, the well is drilled for core sampling in the direction normal to the maximum principal stress, the criterion values of the degree of shock hazard and degree i of the hazard of the array under study are determined by cores selected from wells of the same type and diameter with the same configuration of their working part.

Description

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The invention relates to mining and can be used to assess the degree of impact of rocks. There is a method for estimating outburst hazard, including drilling wells., Estimating the degree of array tension and its outburst hazard from the output of convex-concave discs 1. The disadvantage of this method is that it characterizes only the array strength qualitatively and does not allow to quantify the degree of impact hazard of a section of rocks . The closest to the invention in technical essence and the achieved result is a method for determining the degree of shock hazard of an array, including drilling a well, selecting cores, determining the number of convex-concave discs from each running meter of the well and setting the interval with the largest number of them, assessment of the rock mass by the degree of impact hazard 2. NRLOGTAKPM method of testing means that the disadvantage of the method is that the lack of consideration of orientation ation well relative voltage naira maximum principal stress acting in the test array and the diameter of core portion and the working crown configuration results in that the duration. If the angle between the direction of maximum main stress and the borehole axis is from / 2 to 0 ° and the diameter of the core increases, the thickness of the disks increases and their number decreases until the disc completely stops, which leads to a decrease in the reliability of the method and rock bursts occur in the massif. The purpose of the invention is to increase the reliability of determining the degree of shock hazard by taking into account the stress state of the array. The goal is achieved in that according to the method, including drilling a well, selecting cores, determining the number of convex-concave discs from each linear meter of the well and the position of the interval with the largest number of them, determining the criterion values of outburst risk and assessing the rock mass by the degree of impact hazard, determine the direction of action of the maximum principal stress, drill the well for Core sampling in the direction normal to the action of the maximum principal stress tim, wherein determining criterial value bump hazard degree and extent of the test array bump hazard is produced by T cores, selected from wells drilled bits of one type and with the same diameter and the same configuration of a working part. The method is carried out as follows. Pre-sampling of the core is carried out in wells drilled in the direction normal to the maximum main stress in the rocks with a known degree of shock hazard by core crowns of different diameters and different working parts, and the calibration parameters of the core material are determined with varying shock hazard for crowns of different diameters and different configurations of their working part (one series of curves for crowns 076 mm and spherical shape of their working parts, another for NOC 076 mm and a rectangular shape, a third 076 mm for crowns and acute forms of d, bits 0 and 59 mm spherical shape and t.). Calibration dependencies for each borehole diameter are set at each field; one P is further used throughout their operation in predicting the impact hazard of sections of the array. Then, in the studied rock mass, core samples are taken from the control well drilled in the direction perpendicular to the maximum main stress by core crowns, for example, 76 mm in diameter, or other diameter reinforced by a winner with a rectangular shape of the working part. If there are convex-concave discs up to 2 cm thick, count their number on each running meter of the well and determine the interval with the largest number of discs, indicating the position of the maximum loads. The data obtained on the thickness of the disks and their number on 1 p. The wells are compared with a calibration dependence, which is established for wells, drilled in rocks with a known degree of impact hazard in the direction normal to the maximum main stress with core crowns 76 mm in diameter with a rectangular configuration of its working part. And the results of the comparison determine the degree of impact hazard of the array. The advantage of the method is that it improves the accuracy and reliability of determining the degree of impact hazard by taking into account the influence of the direction of drilling of wells, the diameter of core bits and the configuration of their working part on the core disintegrating parameters.

the safety of workers is enhanced; In addition, reliable determination allows time to be carried out in a timely manner, in case of a shock hazard

hazardous areas of the massif are anti-shock additional costs for bringing the weight to the surface, which exclude impervious to the non-hazardous state and on the rocks of the mountain blows, and hence the trauma of the mountain strike and the damage from its

matism of workers. 5sequences.

1059211

Claims (1)

METHOD FOR DETERMINING THE DEGREE OF IMPACT OF ROCK MASS, including well drilling, core sampling, determining the number of convex-concave disks from each linear meter of the well and the position of the interval with the greatest number of them, establishing criteria for the degree of outburst hazard and evaluating the rock mass according to the degree of impact hazard, different that, in order to increase the reliability of determining the degree of shock hazard by taking into account the stress state of the array, determine the direction of the maximum main stress, a well is drilled for core sampling in the direction normal to the action of the maximum main stress, while the determination of the criterion values of the degree of shock hazard and degree of shock hazard of the studied massif is performed using cores taken from wells I drilled with crowns of the same type and diameter Well meters with the same configuration of their L · working part. K>