SU1298404A1 - Method of degassing coal-bearing strata - Google Patents

Abstract

The invention relates to the mining industry and is intended for the degassing and by-pass production of methane in continuous (lava - floor) and column (lava-stob) systems for the development of coal mines. The goal is to increase the efficiency and cost-effectiveness of coal-bearing gas degassing during the storey mining and along the way methane production by imparting coal-bearing strata to reservoir properties. The strata subjected to degassing is re-drilled from the earth's surface by wells 1 to a depth above the reservoir 6 under development at a distance of 40 of its thickness. The projections of the downhole wells 1 on the reservoir 6 are located above the middle of the width of the floor or stob with a deviation of not more than 15% in the fall or rebellion. The distance between the wells is taken to be 60% of the width of the floor or column. The wells 1 are lined with pipes 2, the annulus is cemented. One of the known methods, for example, by hydrone-perforation perforation, opens all formations that are productive in methane, both coal 4 and rock 5. its capacities are opened and subjected to hydrodynamic effects before coupling them with the worked-out space of the floor or column. After pumping out the working fluid from wells 1, gas is extracted from all the exposed formations. 1 h. item f-ly, 2 ill. and Q (L INO CO 00 4ib

Description

The invention relates to the mining industry, predominantly to the coal industry, and can be used for the degassing and mineral extraction of methane in continuous (lava-floor) and pillar (lava-pole) mining systems for coal deposits.

The purpose of the invention is to increase the efficiency and cost-effectiveness of the degassing of the coal-bearing stratum during the floor testing and. submerged areas of rocks, which allows the well to function when developing the floor or column 12 located lower in the fall. After the working fluid is pumped out, gas is extracted from all the exposed formations.

Claims (2)

Claim I. Investigation of coal-bearing strata. methane production by way of imparting coal to i6, including drilling in roof rocks nose thicker than reservoir properties. FIG. 1 shows the scheme for degassing the coal-bearing strata across the strike of the formation; in fig. 2 - the same, along the strike of the reservoir. The coal-bearing stratum, which is subjected to degassing, is overrun from the earth's surface by a well to a specified depth. The well is surrounded with pipes 2, the annular space 3 is cemented, one of the known methods (for example, water-jet perforation) is opened by one of the known methods (coal-borne 4, and rock 5, productive for methane, and coal, and rock, located above development) 20 wells from the surface to the section of the column being prepared for development, their casing pipes, plugging of the annulus and gas suction from the wells, characterized in that, in order to increase the efficiency and economy of coal-bearing gasification during the storey mining and methane production by passing coal-bearing thicker reservoirs properties, the wells are drilled to a depth above the reservoir under development at a distance of 40 of its thickness, and the projections of their faces onto the reservoir being developed are located over the middle of the width a post or with a deviation of no more than 15% by fall or uprising, and the distance between slaughtering E reservoir 6 at a distance of more than 40 of its capacity, subjected to hydrodynamic - 25 wells take equal to 60% of the width impact, such as hydro floors or posts, while productive disintegration, with injection of working fluid through methane, rock formations in a volume sufficient to reach the hydro-in the roof of the coal flatbed rake being developed, through cracks 7 of hydrodislocation at a distance of over 40 of its thickness, Neither with zone 8 of complete collapse and zone 9 is opened and subjected to idrodynamic fractured rocks 9, which are fixed 30 by treatment. by the pressure drop of the injection into the well. 2. The method according to claim 1, wherein Well 1 is positioned so that the hydrodynamic treatment of the formations the size of the treated zone 10 of the reservoir is 100% produced before their generation with the developed his fall was equal to the size of the area 11space floor space or on the uprising to the place of hydraulic breakdown from once a pillar. loaded sections of rock, which allows the well to function during the development of the floor or column 12 located lower in the fall. After the working fluid is pumped out, gas is extracted from all the exposed formations. Claim I. Investigation of coal-bearing strata.  including drilling in the roof rocks wells from the surface to the section of the column being prepared for development, their casing pipes, plugging of the annulus and gas suction from the wells, characterized in that, in order to increase the efficiency and economy of coal-bearing gasification during the storey mining and methane production by passing coal-bearing thicker reservoirs properties, the wells are drilled to a depth above the reservoir under development at a distance of 40 of its thickness, and the projections of their faces onto the reservoir being developed are located over the middle of the width a post or with a deviation of no more than 15% by fall or uprising, and the distance between slaughtering E wells are assumed to be 60% of the width A / 7 A /; /, o.si. "9 / / I I H  I / ° / Yu // vZ /