RU2600948C1 - Method of coal rock dumps sites selecting - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining, can be used when selecting places for coal rock dumps location and intended for prevention of rock mass self-ignition. When preparing dumps site creating waterproof layer to design boundaries of dump, insulating layer from inert materials along dump perimeter, selecting boundaries of geodynamic active blocks, determining their effect width b and coal rock dumps sites are located outside these zones.

EFFECT: technical result is prevention of rock mass self-ignition due to excluding possibility of air intake into dump through permeable zones in its base.

1 cl, 1 ex, 1 dwg

Description

The invention relates to the mining industry and is intended to prevent spontaneous combustion of stored rock, can be used when choosing locations for the location of coal dumps.

Spontaneous combustion of coal dumps is one of the pressing environmental problems in mining areas. In accordance with theoretical developments (Veselovsky BC, Vinogradova L.P., Orleanskaya G.L., Terpogosova E.A. Methodical guide to the forecast and prevention of spontaneous combustion of coal. M: USSR Academy of Sciences, 1971) coal spontaneous combustion is determined by the chemical activity of coal, the influx of air to it and the accumulation of heat resulting from oxidation. A necessary factor here is the flow of air, in connection with which the invention is aimed at preventing the entry of air into the dump body.

A known method of choosing a location for the location of the blade, taking into account the direction of the prevailing wind. The place to place the dump is chosen taking into account the wind rose in the area, which reduces the impact of the dump on residential areas of settlements (Protasova N.N. Substantiation of factors affecting the choice of the location of dumps. 7th International Scientific and Practical Conference "Innovations in Technologies and Education", Veliko Tarnovo, May 28-29, 2014: Collection of articles, Part 1. Belovo; Veliko Tarnovo. 2014, p. 60-65).

The disadvantage of this method is that with this choice of the location of the blade, the conditions for the flow of air to its surface and internal parts through the permeable zones in its base are maintained due to the pressure created by the air pressure.

There is also a known method for choosing the location of a coal bed dump, which is based on minimizing the distance of transportation of the rock from the coal plant to the rock dump (Agapov A.E., Navitniy AM, Tereshchenko T.L., Igoshin V.M., Kaplunov Yu.V., Malyshev A.A., Batrakov N.V., Agapitova O.V. Technical and technological solutions for the formation of fire-safe parameters and extinguishing burning dumps (heaps): In 2 books Reference manual. Moscow-Mines: publishing house of the Law Department of the Russian Academy of Natural Sciences . - 2008).

The disadvantage of this method is also that with this choice of the location of the blade, the conditions for the flow of air to its surface and internal parts through the permeable zones at its base due to the pressure created by the air pressure are preserved.

The methods discussed above do not take into account the features of the geological, tectonic and geomorphological structure of the region.

The closest in technical essence is such a method when dumps are placed on lands unsuitable for agricultural production and other purposes. First of all, spent quarries, beams, ravines, etc. are chosen for dumping. (Agapov A.E., Navitniy AM, Tereshchenko T.L., Igoshin V.M., Kaplunov Yu.V., Malyshev A.A., Batrakov N.V., Agapitova O.V. Technical and technological solutions for the formation of fire-safe parameters and the extinguishing of burning dumps (heaps): In 2 books. Reference manual. Moscow-Mines: publishing house of the Southern Federal District AGN RF. - 2008). Preliminarily, at the sites planned for the placement of carbon rock dumps, an insulating layer of inert materials is created along the blade perimeter to the height of each newly formed tier to prevent the occurrence of individual burning foci at a depth and moving them from the dump surface to the side of the slope. At the same time, mounds of inert materials are formed along the outer contour of the tiers, then the rock is poured and stored in the leveling layer of the site, followed by compaction of the dump mass with cam rollers. After that, the previously stored soil layer is laid on the slopes and in the spring seedlings are planted. Thus, the entire side surface of the dump is landscaped, which prevents wind erosion and air flow into the dump.

The disadvantage of this method is that the placement of dumps in beams and ravines can significantly increase the likelihood of air entering the dump body through cracks and faults in the earth's crust, since beams and ravines are indicators of modern active faults in the earth's crust (geodynamically dangerous zones) (Subsoil geodynamics. Guidelines / Under the editorship of IM Petukhov, IM Batugina - L .: VNIMI, 1990.138 p.). In addition, in the geodynamically dangerous zone, deformation of the insulating layer at the base of the blade can occur, which helps to establish an aerodynamic connection between the body of the blade and the permeable zone at its base. The invention is aimed at eliminating the possibility of an aerodynamic connection between the rocks located in the dump and the permeable zones at its base by placing the dump outside the geodynamically dangerous zone.

The technical result of the invention is to prevent spontaneous combustion of the stored rock mass by eliminating the possibility of air entering the dump through permeable zones at its base.

The technical result is achieved as follows. In the proposed area of the location of the coalbed dump, the geodynamically active blocks and their boundaries are selected, the width of the zones of influence of the boundaries of the geodynamically active blocks (the width of the geodynamically dangerous zones) is determined, and the location for the dump outside the influence zones of the boundaries of the geodynamically active blocks (geodynamically dangerous zones) is selected. Preparation of the site for the dump is done by creating a waterproof layer to its design boundaries and forming an insulating layer of inert materials around its perimeter. After dumping the dump, landscaping of its slopes is carried out.

The method is illustrated in the drawing. The following components are indicated by numbers: 1 - carbonaceous dump; 2 - the earth's surface; 3 - rock mass; 4 - zone of influence of the boundaries of geodynamically active blocks (geodynamically dangerous zone); 5 - an insulating layer; 6 - zone of destruction of the insulating layer in the base; 7 - zone of destruction of the insulating layer on the sides; 8 - sediment; 9 - air movement. The method is implemented as follows.

Using the method of geodynamic zoning based on the use of topographic maps, aerial and satellite images of different scales, geological, geophysical, geomorphological and other materials, the boundaries of geodynamically active blocks are distinguished (4), their influence width is estimated (b), these zones are identified on the ground, they are compared with the planned location of the coal dumps (1) on the earth's surface (2). The site for the placement of carbon rock dumps is located outside the zones of influence of the boundaries of geodynamically active blocks.

Implementation of the proposed method is possible on the basis of the fact that the crust consists of hierarchically ordered geodynamically active blocks of different ranks, which are in constant interaction with each other (IM Batugina, IM Petukhov. Geodynamic zoning of deposits during the design and operation of mines M.: Nedra, 1998.166 s.). The boundaries between the blocks are called "geodynamically dangerous zones" and represent linear sections of tectonic destruction of the rock mass. The permeability of the rocks at the boundaries of the blocks can be much higher than the permeability of the rocks inside the blocks, which contributes to the mass transfer of gases in the massif precisely in these zones. In addition, the interaction of blocks and their relative displacements along the boundaries prevent the healing of cracks in the rock mass and cause deformation of surface structures, for example, buildings and pipelines (Petukhov I.M., Batugina I.M. Mineral resources geodynamics. M: Nedra kommunikeyshenz, 1999 . 214 p.).

Therefore, when placing a carbon rock dump over a geodynamically dangerous zone, conditions are created for the destruction of the insulating layer at the base of the dump (6) and on its sides (7) over time and air entering the dump body through the permeable zone due to traction due to wind pressure and differential pressure over the height of the blade.

Example. Burning coal dumps are available in the East Donbass, Kuzbass and other mining regions of Russia (Environmental monitoring during the liquidation of mines and opencasts / Under the general editorship of A. Krasavin - Perm, OJSC MIIIIKO TEK, 2010. - 315 p.). Many of them are located in beams, ravines and other depressions. Carbon dumps are 0.5-5 km in size. The results of geodynamic zoning show that in Kuzbass mine fields are divided into geodynamically active blocks with sizes from 2 to 10 km with a width of zones of influence of their borders 200-400 m (Batugin A.S., Golovko I.V., Semenov V.A., Musina VR, Determination of the width of zones of influence of block boundaries according to the manifestation of technogenic seismicity in the mining region of Kuzbass // Mining Information and Analytical Bulletin, 2015. No. 7. P. 211-214). The boundaries of the blocks are traced through beams, ravines and other relief indicators (Geodynamics of the subsoil. Methodical instructions / Edited by IM Petukhov, IM Batugina - L., VNIMI, 1990. 138 p.). The width b of the zones of influence of the geodynamically active boundaries of the blocks (the width of the geodynamically dangerous zone) is determined by recording and analyzing the spatial distribution of seismic events or by measuring the amplitude of the mutual vertical displacement of the blocks and further calculation using the formula b = 10H, where H is the amplitude relative to the displacement of the blocks. Since the width of the geodynamically hazardous zone is much smaller than the size of carbon-bearing dumps, and the dimensions of the dumps are smaller than the sizes of individual blocks, it is possible to locate dumps outside of geodynamically dangerous zones.

Claims (1)

The method of selecting locations for carbonaceous dumps, including preparing the site by creating a waterproof layer to the design boundaries of the dump, an insulating layer of inert materials along the perimeter of the dump and landscaping the slopes of the dump, characterized in that the boundaries of geodynamically active blocks of the earth's crust are highlighted, the width of the zone of their influence is determined and dump sites are located outside these areas.

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