SU1035221A1 - Method of working gently-sloping coal seams with coal and gas outburst hazard present - Google Patents

Description

"1 The invention relates to the mining industry and is intended to develop flat coal seams prone to sudden outbursts of coal and gas. There is a known method for developing flat coal seams that are prone to internal carbon and gas emissions, including conducting preparatory development with the formation of coal pillars and working out the excavation area with lavas ClJ. However, this method is characterized by insufficient safety of cleaning works and considerable labor by the capacity of preparation and working out of the excavation site. The aim of the invention is to increase the cleaning work and reduce the working capacity of the preparation and treatment of the excavation site. The goal is achieved by the fact that in a well-known method of developing flat coal seams that are prone to sudden emissions of coal and gas, including conducting preparatory excavation with the formation of coal pillars and working out the excavation area with lavas, preparatory development is carried out along P roofs of the roof layer, and the soil development is located directly on the coal seam, coal mining is under. production is carried out after the development of the entire length of the column and smoothly lower this development on the soil of the reservoir, using it during the development of the next column, while the reused excavation is connected to the lava through an aperture that leads to the developed space earlier spent excavation site and the furnace, conducted on the rocks of the immediate roof, lying on the soil of the reservoir. The method is carried out as follows. In the pillar development system, the pillar is prepared by conducting one preparatory development — a drift (when working with lava along strike) or a walk (when working with lava upon rising or falling). The bee is carried out in the rocks of the immediate roof of the reservoir with the design width of the cross section and height that ensures its normal use for the intended purpose in accordance with the IB. This production is arranged in such a way that the soil serves as a prepared corner layer or a wedge-shaped prism of rocks, the sloping side of which contacts the coal layer, and the maximum height is determined from the ratio bj, tgoL, where bdsc is the width of excavation at the base; oi- dip dip angle. The second contouring pillar is a drift (walker) of a previously spent pillar preparatory development. During the development of the previous pole as a result of excavation, this drift moved with the rocks of the immediate roof to the position in which the soil of the formation became its soil. This drift (walker) is placed at a distance of 2–5 mot of the column being prepared. In transport and in veins, in terms of tilting, this drift (walker) is connected to the treatment output of the furnaces carried out on the rocks of the immediate roof, lying on the soil of the formation, and the clearing, which leads along the formation of coal in front of the lava. previously spent excavation site. It also serves as a niche. After excavation, the coal under excavation is made after it has been carried out over the entire design length or with a lag of at least 200 m from the rock slab in the niche ahead of the lava and extending 2-5 m beyond the side wall of the excavation towards the undisturbed coal mass, This is the production with interfering rocks of the roof to the extracted capacity of the corner seam for reuse in the development of the next column (Russ, strip). This ensures the subsequent operation of it in the zone of maximum discharge. The airing of the excavation area is as follows. In the two workings and cleaning work, fresh ventilation is supplied. Harmfulness contained in the jet passing through the clearing excavation is additionally diluted with a scooping jet discharging along another drift (walker) and removed to the flanking excavation.

during panel preparation and development of pillars with lavas along the strike, or towards the development of a ventilation horizon — with sloping preparation and development of pillars with lavas upon revolt or fall.

Coal transportation can be carried out in either of the two workings, both in the direction of the rear sight and in the direction of the open space.

In a continuous development system for transport-ventilation and other chains, re-use the drift or walker from the previously removed trench (strip), which is located 2-5 m from the tilted trench, (strip) and is connected to the cleaning generation of furnaces and a glade. the carbon carried in front of the lava at the boundary with the spent rushes

With the advancement of the clearing at a distance of not less than 200 m, another drift or walker is conducted through the rocks of the immediate roof of the reservoir so that its immediate soil is an angular seam or wedge-shaped rock layer, the sloping side of which contacts the coal seam and the maximum height hjip from the ratio b bosn-P4 ..

 B. The process of maintaining the cleaning works in the niche, ahead of her lava, coal is excavated under the drift (walker), as well as at a distance of 2-5 m from the side wall of this drift (walker). In doing so, the drift or walker, along with the sales of the immediate roof that enclose it, smoothly descends onto the soil of the formation.

Initially, this drift (walker) is used during mining of the rue (the strip in which it is conducted, and then reused during the mining of the next race (strip).

The proposed development method has a number of important advantages: it eliminates the need to carry out local anti-blowout measures and to control outburst hazards during preparatory workings, as well as in the preparation of niches; both with the pole and continuous development systems, the necessary conditions are created for the implementation of measures for the softening and degassing of the roof rocks, the degassing of the reservoir itself, eliminating the need to perform local anti-blowout measures in the middle part of the lava, provides reuse of drifts when finding them in the most unloaded zone,

5 that, together with a significant reduction in the volume of development workings per 1000 tons of production, it also gives the maximum reduction in the cost of repairing and maintaining mine workings; the maximum increase in the level of work safety is achieved by eliminating the possibility of sudden coal and gas emissions; a significant increase in the technical and economic indicators of the development of coal seams is ensured by eliminating the time, labor, materials and energy expenditures to perform local anti-blowout measures, as well as by significantly reducing the costs of conducting and maintaining preparatory workings.

Claims (1)

METHOD FOR THE DEVELOPMENT OF GENTLE COAL PLASTERS, INCLINED TO SUDDEN EMISSIONS OF COAL AND GAS, including the preparation of the preparatory. work with the formation of coal pillars and the mining of the excavation section with lavas, characterized in that, in order to increase the safety of the treatment operations and reduce the complexity of the preparation and mining of the mining section, the preparatory excavation is carried out by the formation roof rocks, and the excavation soil is placed directly on the coal seam , the extraction of coal under the mine is carried out after mining the entire length of the column and gently lower this mine to the soil of the formation, using it when mining the next column, while m, the reused mine is connected to the lava through a clearing, which is held along the coal seam in cross section to the mined space of the previously mined excavation site and furnace, carried out over the rocks of the direct roof lying on the soil of the seam. 1 1035221