RU2394991C1 - Procedure for solid coal weakening - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: procedure consists in boring boreholes in weakened massif through mined sublevel, in cutting initiating fissures on walls of said boreholes, in fussure sealing and in forming cracks of coal hydraulic break by pressurising fluid into them. A successive initiating fissure is cut simultaneously with preceding initiating fissure sealing and with forming a crack of hydraulic break in it.

EFFECT: raised efficiency of procedure due to reduced number of preparing operations, also reduced assortment of required equipment and time for part of operations.

2 dwg

Description

The technical solution relates to mining, namely to the development of steep coal seams, and can be used to soften strong coals.

A known method of developing steep and inclined coal seams with columns along strike (ed. St. USSR No. 717338, E21C 41/04, published in BI No. 7 for 1980), including field preparatory workings and subsequent excavation of coal in the working faces. Wells are drilled from field openings into the formation through which surfactant gas is pumped into it until the amount of sorbed and free gas is equal to the maximum sorption capacity of coal, after which oscillatory sorption-desorption processes of gas in the pore volume of coal are caused by acting on the formation and host rocks mechanical vibrations, changing according to a periodic law.

The disadvantage of this method is that during its implementation it is necessary to accurately determine the amount of injected gas and, in each case, depending on the geological conditions, calculate the parameters of mechanical vibrations, which greatly complicates the implementation, and therefore, the effectiveness of the method.

The closest in technical essence and combination of essential features is the method of oriented rock fracturing (ed. St. USSR No. 1535992, ЕВВ 43/26, Е21С 41/18, published in BI No. 2 for 1990), including the drilling of initiating wells in the direction of the propagation of cracks, the creation of initiating cavities in the wells, the sealing of these cavities and the formation of hydraulic fractures in the rocks by injection of fluid in them. At a distance from the previous well, determined by the established dependence, additional wells are drilled within the limits of the designed hydraulic fracture propagation. The latter are sealed to the designed hydraulic fracture and injected into them under pressure below the hydraulic fracture pressure, then after the formation of the hydraulic fracture in the initiating well, its passage in the additional well is recorded by the change in the fluid pressure in this well, after which the hydraulic fracture is formed in the additional well by increasing the fluid pressure in it to the fracturing pressure.

The disadvantage of this method is the large number of preparatory work associated with drilling additional wells, as well as the use of several sets of equipment for hydraulic fracturing. This leads to an increase in the cost of the method, to an increase in the staff of the personnel involved in its implementation, and therefore to a decrease in its effectiveness.

The technical task of the proposed solution is to increase the efficiency of the method by reducing the preparatory work, reducing the required equipment and the time it takes to carry out part of the operations.

The problem is achieved in that in the method of softening hard coals, including drilling holes in a softening array, cutting the initial cracks on the walls of these holes, sealing them and forming hydraulic fractures of coal by injecting liquid into them, according to the technical solution, the holes are drilled through the worked sub-floor, and cutting the subsequent initiating slit is carried out simultaneously with the sealing of the previous initiating slit and the formation of coal fracture in it. Drilling through holes makes it possible to combine operations in time: feed the working fluid from the upper mine to a sealing device - seal the previous initiating gap and form a hydraulic fracture in it, and then cut the subsequent initiating gap from the lower mine. This allows to reduce the number of operations associated with the reconfiguration of equipment from one operation to another and to reduce the time part of the operations, and therefore, to increase the efficiency of the method of softening strong coals.

The essence of the technical solution is illustrated by the description of the implementation of the method of softening of hard coals and drawings: Fig. 1, which shows a diagram of the implementation of this method, and Fig. 2, which shows location A in Fig. 1 on an enlarged scale.

The method of softening strong coals (hereinafter the method) is implemented as follows. Machine 1 drill a hole through hole 2 in the coal mine 3 from the lower mine 4 to the upper mine 5 (Fig. 1) through the worked sub-floor. Then, from the bottom mine 4, installation is made in a hole 2 of a set of equipment, including: a drill string 6 (Fig. 2), a slotting tool 7, a swivel 8, a sealing device 9. Through a flexible pipe 10, a sealing device 9 is connected to the pump unit 11 located in the upper generation 5. After that, the first (upper) initiating slit 12 is cut from the lower mine 4, while the sealing device 9 remains stationary thanks to the swivel 8, which provides autonomous rotation of the slot former 7 in the process cutting. Then, the drill stand 6 is moved down to step L (FIG. 2) to drill the second initiating slot 13, while the sealing device 9, moving, occupies a hole 2 in such a position that the initiating slot 12 is located between the sealing elements 14 of the sealing device 9. From the pumping unit 11 through a flexible pipe 10 into the sealing device 9 under pressure is fed the working fluid - is sealing the area of the hole 2, in which the initiating gap 12. When the pressure level is adjusted to sizing device 9, the working fluid is fed into the hole 2 and hydraulic fracturing and hydraulic fracturing are performed. At the same time, the initiating slit 13 is cut, while the independence of operations is ensured by the use of the swivel 8. After that, the pressure of the working fluid is relieved, and the sealing elements 14 take their original shape. The whole complex is again moved down to step L and hydraulic fracturing of the initiating slit 13 and cutting of the next initiating slit 15 are performed. Thus, the entire hole 2 is processed.

Claims (1)

A method of softening strong coals, including drilling holes in a weakened array, cutting initiating slots on the walls of said holes, sealing them and forming hydraulic fractures of coal by injecting liquid into them, characterized in that the holes are drilled through the worked substage, and the subsequent initiating gap is cut simultaneously sealing the previous initiating gap and forming coal fractures in it.

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