SU1346795A1 - Method of combination mining of thick coal seams - Google Patents

Abstract

The invention relates to the mining industry and increases the efficiency of gasification by reducing the loss of gasification products and reducing the cost of gasification. To do this, first cut the notch panel and remove the top layer. After the collapse of the roof rocks, the cutting, adjustment and collapse of the roof of the second extraction column are carried out. When the roof collapses into the open space, the zone of collapsed rocks is formed in the form of a dome. This is done by increasing the thickness of the formation in the center of the panel. At the edges of the excavation panels, the pillars are staggered. Pins can be made from bookmarks. A borehole is drilled from the surface to the upper part of the dome. Begin gasification of coal reserves left. After the ignition of the abandoned coal and the intensification of the underground gasification process, the hot productive gases rush upward through the cracks under the dome and flow through the drilled wells. 4 il. (L with 4 05 sj with SP

Description

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The invention relates to the mining industry and can be used in the development of coal-bearing strata by the combined method using underground excavation and subsequent gasification of reserves left in the depths.

The purpose of the invention is to increase the efficiency of gasification by reducing the loss of gasification products and reducing the cost of gasification.

Figures 1 and 2 show the stages of the clearing excavation of a thick flat reservoir; on fig.Z - section of the sequence during the gasification of the left reserves; 4 - the same, with the formation of a stepped rear sight of the backfill material.

The method is carried out as follows.

In developing, for example, a steeply-stratified thick formation 1, represented by a high-quality upper bundle and a high-ash lower bundle, the excavation floor is cut and the upper layer 2 is removed. five.

The width of the notch pillar 3 is less than the width of the spent upstream notch post. After mining excavation column 3 and roof collapse due to the fact that the total power of spent coal is reduced from the center to the flanks of the excavation floor, the zone 6 of the collapse and movement of rocks, which has the shape of a dome, is formed in the roof. Pillars 7, which have a stepped shape, are left at the borders of the excavation fields. Step pillars 7 can be formed from bookmarks. In this case, the layers are excavated in the ascending or descending l order with an increase in the width of the excavation pillars from the roof to the soil. In this case, quality is ensured.

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isolating the adjacent areas of the reservoir to be gasified, and eliminates the movement of roof rocks at the boundary of the areas during the gasification of retained reserves, which reduces the loss of productive gases. After the mining, excavation fields and the formation of stepped targets at their boundaries from a coal seam or from a filling material, gasification of the left coal reserves begins. In this case, injection wells are drilled from the surface to intersect the

15 with a layer of remaining coal and gas suction wells 8. Moreover, the latter are drilled directly into the dome of the collapsed rocks. After the ignition of the abandoned coal and the intensification of the underground gasification process, hot ps5 productive gases crack upward under the collapsed dome and enter the surface through the well. Wells 8 can be reconstructed with overburden overburden, in which case their ends are supplied with perforated pipes for collecting gases.

Claims (1)

30 claims The method of combined development of powerful coal seams, including an underground excavation within the panel, leaving panel pillars in the depths, collapsing the roof into the panel’s exhausted space, underground gasification of abandoned reserves and gasification products gathering, in order to increase efficiency gasification by reducing the loss of gasification products and reducing the cost of gasification, when the roof collapses, the zone of collapsed rocks is formed in the form of a dome by increasing the thickness of the formation of the seam in the central part of the panel, and after the collapse of the roof into the upper part of the dome, the wells are drilled, from which the 50 com gasification. Ls. Y ////////////////////////////////////// A Phi1 f iJ 4-NLLUL-H -, M-N ABOUT Well y ///////////////// fi 3 ////////////////////////////////////////////////// .  about . . about . . ABOUT . . . , about . . . H. o ... o 5. oh ... oh - o-. about. ;: ---; - g:. ; --...--. ; ; / ;; °; ; :; -.-.-; ; -:  . - about/ . .-about . .about . yy- TL .J.  about /,. about . . .. ::.-about . -about: .-. -. /. o .. -.-. .-J about. about oh.  about u /////////////////// FIG. " Compiled by N. Rudenko Editor N. Lazarenko Tehred A. Kravchuk Proofreader A. Ilyin Order 5105/32 Circulation 452 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 L o-oh . - . ABOUT . . about . about  ABOUT.  about TL  about /,. about . . .. ::.-about . -about: .-. -. /. o .. -.-. .-J about. about oh.  about