SU1372070A1 - Method of predicting rock ejection hazard - Google Patents

Abstract

The invention relates to mining and m. used in carrying out workings on outburst hazardous rocks. The goal is to increase the accuracy of the outburst hazard forecast by taking into account the main outbreak risk factors in the mining process. In the rock massif, when conducting mining operations on the predicted layer of rocks, a test well (C) is drilled to the depth of the bottom in one cycle. A sensor of piezoelectric activity (PEA) is installed in the mouth C. In the horizontal plane along the same layer of rock, the second one is drilled parallel to the first. PEA rocks are measured in the array simultaneously with the drilling of additional C, moving the PEA sensor in the control C following the drill bit moved in additional C over the entire length of the control C. Over the safe zone, the intensity of the PEA varies by C in excess of the initial level is more than 70%; they take the distance from the chest to the point at which the PEA intensity of the rock of the predicted layer does not exceed 70% of the initial PEA level. The size of the safe zone is set by the formula 0.7Uo / gradU + L, where U is the intensity of the PEA rock on the surface i (L SCR - L. - slab; gradU Uj is the PEA gradient, where I is the intensity of the PEA over the entire length C, U is the intensity PEA to the point of increasing PEA, - the length of the drilled C, LJ, - the length of the segment from the chest and the development to the point of the beginning of the growth of the PEA of the rock of the predicted reservoir. 2 ill. With tc

Description

The invention relates to roHONry business and can be used when conducting research on outburst hazardous rocks.

The purpose of the invention is to improve the accuracy of the outburst hazard forecast by taking into account the main emission risk factors in the mining process.

Figure 1 shows a diagram of the device for implementing the method; in fig. 2 is a graph for determining the discharge zone.

The diagram shows the downhole 1 of the production, the drilling unit 2, the crown 3, the test well 4, the sensor 5 of the piezoelectric activity, the additional test well 6, the measuring device 7, the shielded cables 8 and 9, and grounding 10.

The method is carried out as follows.

In the rock massif, when mining operations are conducted in the direction of the bottom 1 horizontal generation (FIG. 1), a test well D 040 mm is drilled along the development axis using the drilling tool 2 if the predicted rock layer is located throughout the entire production section, as well as for each layer separately, if the working section has several layers of rock predicted by outburst danger at a depth not less than the interval of the work output for one mining operation, then a sensor 5 for measuring the points is installed at the mouth of the well} 1y zoelektricheskoy activity. The latter is connected with a shielded cable 8 to the connector of the measuring device 7.

As a measuring device of a piezoelectric active rock, an upgraded device is used (a scattering geological exploration}) device (PSA). The second cable 9 of the measuring device is connected to the drilling tool 1ent 2 and to the common ground 10 in the excavation. In the horizontal plane along the same layer of rock, the Burits second well 6 is parallel to the first one. In the process of drilling in the alignment with a 6ypoBoii crown 3 PS to a previously drilled well, a sensor of piezoelectric activity is moved with simultaneous fixation of the readings of the measuring device.

The change in the piezoelectric activity of the rock of the predicted layer, determined along the entire length of the control well 4, determines the safe boundaries of the discharge zone (Fig. 2), at ITOM, if the intensity of the piezoelectric activity is changed within the well length from the mouth to the chest by an amount greater than 70% of the initial level, the value of the safe unloading zone is taken to be equal to the distance from the chest of the face to the point of movement of the sensor 5 of piezoelectric activity, in which the intensity of the piezoelectric -parameter activity projected reservoir rock does not exceed 2/3 of the piezoelectric activity index of rock or 70% from the initial level at the bottom. If within well 4 the intensity does not exceed 70%, the boundary of the safe unloading zone located behind the chest in well 4 is determined by extrapolating the obtained values of the piezoelectric activity of the formation rock by the magnitude of the piezoelectric activity gradient according to the formula

 Oiz-uo

+ L,

  About the intensity of the piezoelectric activity of the rock on the surface of the chest of the slaughter,

gradient piezoelectric activity and

grad and

UL

Hard currency

- UL,

where is ul

well

-SCV About

the intensity of the piezoelectric activity along the entire length of the well, the intensity of the piezoelectric activity to the point of increasing piezoelectric activity | the length of the drilled forecast borehole, is the length of the segment from the borehole and the generation to the point of the beginning of growth of the piezoelectric activity of the formation rock.

well „well

L 55

Claims (1)

Invention Formula The method of forecasting the outburst risk of rocks, including the drilling of control wells, measuring the piezoelectric activity, determining the safe zone, mining, characterized in that, in order to improve the accuracy of the prediction of outburst hazard by taking into account the main factors of outburst hazard during the mining process, the control well is drilled through the predicted layer of rocks to the depth of in one cycle, a piezoelectric activity sensor is installed at the wellhead and an additional test well is drilled, while measuring the piezoelectric rock activity is produced in the array simultaneously with the drilling of an additional well, moving the piezoelectric activity sensor in the control well following the drill bit moved in the additional well along the entire length of the control well and beyond the safe zone value when the piezoelectric activity changes an amount exceeding the initial level by more than 70% takes the distance from the chest to the point at which the intensity of the piezoelectric activity breed forecast This layer does not exceed 70% of the initial level of the piezoelectric activity at the bottomhole; when the intensity of the piezoelectric activity is less than 70%, the size of the safe zone is set by the formula  ra-yg   Uo grad u + L. five 0 5 0 where and. grad and where is ul the intensity of the piezoelectric activity of the rock on the surface of the slab. .:  Gk and b Ckft sleep B „- gradient piezo electrical activity - the intensity of the piezoelectric activity along the entire length of the well, the intensity of the piezoelectric activity to the point of increasing piezoelectric activity, -the length of the drilled forecast well, the length of the segment to the point of the beginning of the growth of the piezoelectric activity of the rock of the predicted formation. - // // /// /// / / A / x 77T-f77 7r V  /// /// /// /// /// /// /// /// /. n . 10 2, 0 / g / gL / v fig g