RU2655548C1 - Method for recultivation of open-pit workings - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining industry. Method comprises separate storage of a fertile layer and overburden rocks during development of minerals, laying of the mined-out space after mining, compaction and planning of the surface depending on the selected recultivation direction, applying a fertile soil layer and restoring the vegetation cover. Mined-out space is laid by steps: at the first stage, the laying of the mined-out space to the level of restoration of the initial hydrological regimes of underground aquifers is carried out by overburden rocks which do not represent a potential environmental hazard for groundwater pollution, forming an aquifer layer separated from the filled space by a 0.8–1.0 m clay waterproofing layer and/or a cast hardening pad prepared from waste from household and industrial wastes with a capacity of 0.20–0.30 m which ensure water resistance of the layers during vertical drainage of water, at the second stage, the remaining mined-out space is filled to the level of cooling of the recultivated area with solid household or industrial wastes of IV-V hazard class, ensuring their disposal, which are leveled, compacted and separated by a 0.8–1.0 m clay waterproofing layer, at the third stage, slopes are damped by the area of open mining taking into account the angle of the given slope and the cost of planning the recultivated area, and then a 0.5–0.7 m waterproofing clay layer is applied, at the fourth stage, depending on the type of selected plants and the depth of their root system, a layer and/or sewage sludge, bottom silt, 0.1–0.2 m livestock wastes is applied to the recultivated area, layer of crushed boiler slag from the pieces of size of 0–10 mm, or fly ash of a TPP of 0.10–0.20 m, or mixed materials at a ratio of 1:1–1:2, depending on the type of vegetation with laying in one layer with a thickness of 0.2–0.6 m, which serves to improve air and moisture permeability, as well as soil structuring during plowing and harrowing, at the fifth stage, a fertile layer of 0.15–0.2 m or a potentially fertile soil layer of 0.3–0.5 m is applied to the recultivated area, into which, to improve fertility, a briquetted fertilizer from wastewater residues with a consumption of 100–180 g/m² is introduced, at the sixth stage, grasses, trees and shrubs, selected depending on the direction of land recultivation are planted.

EFFECT: technical result is the disposal of household and industrial wastes of IV-V hazard classes, accelerated biological stage of recultivation of disturbed lands by creating under the fertile layer a layer of extra nutrition of the root systems of plants and herbs and restoring the initial hydraulic regimes of the disturbed area.

1 cl, 4 dwg

Description

The invention relates to the mining industry, the technical result of which is the burial of household and industrial wastes of hazard classes IV-V, the acceleration of the biological stage of reclamation of disturbed lands by creating, under the fertile layer, a top-dressing layer of root systems of planted plants and grasses and restoration of the original hydraulic regimes of the disturbed territory.

There is a method of developing steeply dipping seams in an open way [1], including conducting exit and split trenches in the overburden, entrance and split trenches along the mineral layer with subsequent mining of one or two sides of the split trenches in the direction of the formation strike, in which land reclamation is carried out after mining stocks.

The disadvantage of this method is the high cost of opening the lower horizons after reclamation during the development of reserves.

A known method of developing minerals [2], in which the upper horizons are mined by a quarry, and the lower open-underground or underground methods.

The disadvantage of this method is the lack of the possibility of reclamation during the completion of reserves by underground mining.

A known method of land reclamation [3], including the formation of a soil layer, characterized in that the soil is formed by introducing into the soil after preliminary harrowing complex mixtures of oligotrophic nature with a wide ecological range, using a mixtures consisting of three groups of plant species or their substitute.

A known method of land restoration [4], including the formation of the soil layer by applying to the bare soil after preliminary harrowing a complex grass mixture consisting of three groups of plant species or their substitutes, and when replacing, determine the minimum weight of species seeds in each group according to the formula: m = ga / 2 / b, where m is the minimum mass of seeds of species in each group, g is the specific gravity of seeds, a is the number of species in the group, b is the number of species and the group of real seeds.

A known method of land reclamation during coal mining [5], including surface planning, the introduction of coal waste before plowing, sowing plant seeds and inoculation with strain with sowing plant seeds, while the culture is taken in an amount of 100-200 g / ha.

A known method of land restoration during field development [6], including separate excavation, moving and storing the fertile layer and overburden in tape dumps, processing the quarry field and leveling it with overburden, laying geotextile non-woven material from synthetic fibers, placing grass seeds and filling with soil a layer with a height of 50-100 mm, on top of which a chemical ameliorant is applied.

These methods relate to the stages of biological reclamation and are compared with the sixth stage of applying seeds and fertilizer to the formed fertile soil layer

There is a method of developing the upper horizons of minerals [7], in which the opening of the deposit is carried out in parallel trenches with remote external contours at a certain distance from each other, and the opening is carried out in stages with deepened trenches with the excavation of the trench array open work in the direction towards the center until complete merging into one quarry by the time of reaching the final value of the depth of effective development of the field, which are being developed by underground operations horizontally in the direction of external sides to field boundaries.

The disadvantage of this method is the long unfavorable environmental situation in the mining region due to the lack of the possibility of land restoration.

The closest technical solution adopted for the prototype is a method of reclamation of open mine workings [8], which includes separating the fertile layer during the opening of mineral reserves and storing the rocks during their development, planning the worked out space with the laying of rocks and applying the fertile layer to restore vegetation in accordance with the direction of land use, characterized in that when laying rocks into the open pit, an inclined trench is formed to the part of the exposed bed in the mine, which provides access and subsequent mining of the reserves left by the underground method and is part of the industrial site.

During the reclamation of mine workings of coal reserves, which are prone to spontaneous combustion, the open part of the exposed layer is isolated in the sides of the mine or anti-pyrogenic treatment, and when the trench is flooded, its sides are formed from waterproof rocks.

The objectives of the invention are: use when laying open mines of domestic and industrial wastes of IV-V hazard classes and wastewater residues, in untreated and processed in the form of granules; acceleration of the biological stage of reclamation of disturbed lands due to the creation under the fertile layer of a layer of fertilizing the root systems of planted plants and herbs, as well as the restoration of the original hydraulic regimes of the disturbed territory.

The solution of the tasks is achieved by the fact that the tab of the worked out space is carried out in stages:

- at the first stage, laying out the developed space to the level of restoration of the initial hydrological regimes of underground aquifers is carried out by overburden, which does not pose a potential environmental hazard for groundwater pollution, forming an aquifer separated from the filled space with a 0.8-1.0 m thick clay-resistant layer of clay and / or cast hardening bookmarks prepared from waste from household and industrial waste with a capacity of 20-30 cm, which provide waterproof layers when vert cial drainage water;

- at the second stage, the remaining developed space is filled to the level of cooling the reclaimed territory with solid domestic or industrial hazard class IV-V wastes, ensuring their disposal, which are leveled, compacted and separated with a 0.8-1.0 m thick clay layer;

- at the third stage, the slopes are cooled down according to the area of the open excavation, taking into account the angle of a given slope and the costs of planning the reclaimed surface, and then a waterproof layer of clay of 0.5-0.7 m is applied;

- at the fourth stage, depending on the type of selected plants and the depth of their root system, a layer and / or residues of wastewater, bottom sludge, livestock waste with a thickness of 0.1-0.2 m, a layer of crushed boiler slag with pieces size 0 are applied to the reclaimed area -10 mm, or fly ash of thermal power plants with a capacity of 0.10-0.20 m, or mixed materials in a ratio of 1: 1-1: 2 depending on the type of vegetation, laid in a single layer with a thickness of 0.2-0.6 m , which serves to improve air and moisture permeability, as well as structuring the soil during plowing and harrowing;

- at the fifth stage, a fertile thickness of 0.15-0.2 m or a potentially fertile soil layer with a thickness of 0.3-0.5 m is applied to the reclaimed area, to which briquetted fertilizer from the wastewater residues with a flow rate of 100-180 is applied to improve fertility g / m ² ;

- at the sixth stage, grass is sown, trees and shrubs are planted, selected depending on the direction of land reclamation.

The invention is illustrated by drawings:

in FIG. 1 shows a vertical section of an open pit before reclamation;

in FIG. 2 shows a vertical section of an open mine working after filling overburden with the overburden to the level of groundwater flooding;

in FIG. Figure 3 shows a vertical section through open pit mining after filling the pit with domestic and industrial waste;

in FIG. Figure 3 shows a vertical section of open pit mining after technical land reclamation.

The following conventions are adopted in the drawings: 1 - section, 2 - overburden dumps, 3 - clay clay layer, U-U - level of flooding of the worked-out space with underground waters, C-C - line of flattening the sides of the section, 4 - sides of the section, 5 - solid household and industrial waste, 7 - a layer of WWS or fly ash, 8 - a fertile and / or potentially fertile layer.

At the first stage, the laying of the worked-out space of section 1 by overburden 2, which does not pose a potential danger to groundwater pollution, from external dumps 6, from the initial state of section 1 (Fig. 1) to the level of filling the worked-out space with groundwater U-U (Fig. 2). The first stage ends with the separation of the filled space with a waterproof layer of clay 3 with a thickness of 0.8-1.0 m and / or a layer of hardening bookmarks with a thickness of 0.2-0.3 m, prepared from industrial and household waste with the addition of cement and / or phosphogypsum, which prevents vertical drainage of water in the entire range of power and above.

At the second stage, the developed space is filled with solid household or industrial waste of hazard class IV-V (Fig. 3), ensuring their disposal, which is separated by a waterproof layer of clay 3 with a thickness of 0.8-1.0 m.

At the third stage, the slopes of the sides are flattened along the cut line of the CC sides (Fig. 4), for planning a given angle of the restored area using the remnants of overburden of external dumps, and then a waterproof layer of clay 0.5-0.7 m is applied to prevent transition pollutants waste into the fertile layer, and subsequently it is mixed with the fertile layer, mutually enriching each other.

At the fourth stage, depending on the type of planned vegetation and the depth of its root system, as well as the type of processed waste, a fertile layer is formed on the area of the reclaimed space from fertile or potentially fertile soils layer by layer, above and / or below the layer of sewage residues, bottom sludge, animal waste with a thickness of 0.1-0.2 m, ensuring the fertility of the soil, a layer of boiler slag, crushed slag with a piece size of 0-13 mm or fly ash of a TPP with a capacity of 0.10-0.20 m, which serve to improve air and moisture Oncicity, as well as soil structuring during plowing and harrowing.

The options for the formation of a fertile layer in the presence of a variety of waste can be countless and depends on the amount of nutrients in them, the chosen vegetation and many other factors that determine the economic feasibility of using materials.

It is possible to mix materials 1: 1-1: 2, depending on the type of vegetation and laying in a single layer, the thickness is 0.2-0.6 m.

At the fifth stage, a fertile layer with a thickness of 0.15-0.2 m or a potentially fertile layer of soil with a thickness of 0.3-0.5 m is applied to the reclaimed area, in which briquetted fertilizer from waste water residues with a flow rate of 100-180 is applied to improve fertility g / m ² .

- at the sixth stage, grass is sown, trees and shrubs are planted, selected depending on the direction of land reclamation and the conditions for their growth.

The creation of water-resistant layers of clay and a hardening bookmark using industrial and household waste prevents vertical drainage of water, allows you to restore the hydrological regimes of the disturbed area and groundwater streams, and the use of residual wastewater in the treated and untreated form improves soil fertility, accelerates land restoration, than technical result is achieved.

List of sources used

1. Mining. / Yu.P. Astafiev, V.G. Banznyukov, O.G. Shipun et al. - M.: Nedra, 1980 .-- S. 14-15.

2. The combined method of mining. A.S. No. 143924. IPC E21C 41/02.

3. The method of land reclamation. Pat. RF №95113954. IPC A01B 72/09. Authors: S.I. Zarubin, L.F. Loginov, N.V. Ryzhuk et al. 1995.08.03. Publ. 1998.01.20.

4. The method of land reclamation. A.S. No. 951139541/13. Authors: S.I. Zarubin, L.F. Loginov, N.V. Ryzhuk et al. 1994.06.15. Publ. 1998.04.27.

5. A method of reclamation of land disturbed during coal mining. Pat. RF №940231115. Authors: A.N. Krasavkin, I.V. Kataeva S.V. Vasiliev et al. 1994.08.15. Publ. 1997.02.10.

6. A method of restoring disturbed lands during field development. Pat. RF №96111633 / 13. Authors: V.M. Gerasimov, K.I. Karasev, A.V. Rashkin. Claim 1996.06.07. Publ. 1998.04.27.

7. A way to develop upper horizons of minerals. Pat. RF №97101942. Authors: A.A. Atrushkevich, V.A. Atrushkevich, O.A. Atrushkevich et al. 1997.

8. The method of reclamation of open mines. RF Pat No. 2297533. Patent. and auth. Senkus V.V., Fomichev. S.G., Senkus V.V., Senkus V.V. Claim 26.082005. Publ. 04/20/2007. Bull. eleven.

Claims (7)

The method of reclamation of open mines, including the separate storage of the fertile layer and overburden rocks during the opening of minerals, the laying of the developed space after mining, compaction and surface planning depending on the chosen direction of reclamation, applying a fertile soil layer and restoring the vegetation cover, characterized in that the laying of the developed space is carried out in stages: - at the first stage, laying out the developed space to the level of restoration of the initial hydrological regimes of underground aquifers is carried out by overburden, which does not pose a potential environmental hazard for groundwater pollution, forming an aquifer separated from the filled space with a 0.8-1.0 m thick clay-resistant layer of clay , and / or cast hardening bookmarks, prepared from waste from household and industrial waste, with a thickness of 0.20-0.30 m, which provide waterproofing of layers when ver soft water drainage; - at the second stage, the remaining developed space is filled to the level of cooling the reclaimed territory with solid domestic or industrial hazard class IV-V wastes, ensuring their disposal, which are leveled, compacted and separated with a 0.8-1.0 m thick clay layer; - at the third stage, the slopes are cooled down according to the area of the open excavation, taking into account the angle of a given slope and the costs of planning the reclaimed surface, and then a waterproof layer of clay of 0.5-0.7 m is applied; - at the fourth stage, depending on the type of selected plants and the depth of their root system, a layer and / or residues of wastewater, bottom sludge, livestock waste with a thickness of 0.1-0.2 m, a layer of crushed boiler slag with pieces size 0 are applied to the reclaimed area -10 mm, or fly ash of thermal power plants with a capacity of 0.10-0.20 m or mixed materials in a ratio of 1: 1-1: 2, depending on the type of vegetation with laying in one layer, a thickness of 0.2-0.6 m, serving to improve air and moisture permeability, as well as soil structuring during plowing and harrowing; - at the fifth stage, a fertile layer with a thickness of 0.15-0.2 m or a potentially fertile soil layer with a thickness of 0.3-0.5 m is applied to the reclaimed area, in which, to improve fertility, briquetted fertilizer is applied from waste water residues with a flow rate of 100- 180 g / m ² ; - at the sixth stage, grass is sown, trees and shrubs are planted, selected depending on the direction of land reclamation.

Images