Patent ID: 9417358
Filing Date: 2016-08-16
CPC Classification: E21B,E21C,E21F,G01V

Claim Text:
1. A multi-information coupling prediction method for coal and gas outburst danger, comprising: a. testing an original gas pressure repeatedly in the coal seams in a mining zone and the maximum value is determined as P and the maximum concentrated ground stress σ b. drilling a hole in length not less than 10 m into the coal body in front of the mining face in the mining direction, measuring a gas desorption index of drill cutting once every 1 m drilling length, and recording a desorption index K c. owing to the fact that the gas desorption index of drill cutting increases as the gas pressure increases and decreases as the gas pressure decreases, there is a mapping relation between the gas desorption index of drill cutting and gas pressure, the maximum gas desorption index K owing to the fact that the amount of drill cutting reflects the magnitude of ground stress, the amount of drill cutting increases as the ground stress increases, and decreases as the ground stress decreases, and the maximum amount of drill cutting S max corresponds to the maximum ground stress σ max ; calculating a ground stress σ 1 within the 1 m segment, a ground stress σ 2 within the 2 m segment, ground stress σ 3 within the 3 m segment, . . . , respectively, with formula d. plotting a curve of gas pressure distribution in the coal body in front of the drilling face in the tunnel and a straight line of critical gas pressure of coal body rupture by a multi-information coupling predictor for coal and gas outburst danger or plotting them manually, with the obtained gas pressure values and ground stress values at different positions, wherein, the distance from the mining face to the intersection point between the curve of gas pressure distribution and the straight line of critical gas pressure rupture is the gas-based critical drilling depth; in addition, plotting a curve of ground stress distribution in the coal body in front of the mining face and a straight line of critical compression strength of the coal body, wherein, the distance from the mining face to the first intersection point between the curve of ground stress distribution and the straight line of critical compression strength near the mining face is the ground stress-based critical drilling depth; taking the smaller one in the gas-based critical drilling depth and ground stress-based critical drilling depth as the critical drilling depth; if the drilling depth in one operation in the tunnel is smaller than the critical drilling depth, predicting that the result is “safe”; if the drilling depth is greater than or equal to the critical drilling depth, predicting that the result is “dangerous”; thereby accomplishing the ground stress-based multi-information coupling prediction of coal and gas outburst danger.