RU2433268C1 - Method of quarries reclamation (versions) - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: flattening of quarry sides is done bottom-up by means of their filling by application of stronger rocks taken from the bottom of the quarry. Filling may be carried out up to various vertical elevations at the board of the quarry depending on mine technical conditions of deposit bedding.

EFFECT: accelerated process of damaged lands recovery by increasing stability of flattened boards of the quarry to erosion processes, by arrangement of water reservoirs in the mined area with parameters favourable for recovery of their biological productivity.

4 cl, 4 dwg

Description

The invention relates to mining and can be used in the reclamation and conservation of shallow quarries located in alluvial deposits, including the extraction of building materials and the development of placers.

Due to the deterioration of mining conditions for the development of mineral deposits, the specific land intensity (m ² / t) of mining is growing annually, as a result of which the total area of land disturbed by opencast mining in Russia currently exceeds three million hectares. The issues of restoration of disturbed lands in the current period are very relevant and are included in the priority area for the development of science and technology "Technologies for environmentally sound development of deposits and mining."

There is a method of reclamation of shallow quarries (depth 2-8 m) with overburden dumps located on one or two sides [G. Zubchenko, G. Sulin. Rational use of water and land resources in the development of placers. - M .: Nedra, 1980, p.189-190, p.198-199.]. Reclamation here boils down to re-excavation of all or part of the waste dumps into the mined-out space and subsequent leveling of the surface (dash strip of the quarry) at an angle of 3-6 °.

A common feature of the analogue with the claimed object is the flattening of the sides and filling the bottom of the quarry.

The disadvantage of this method is the inability to carry out accelerated restoration of disturbed lands using this technical solution with a small overburden capacity, which does not allow to completely form a vegetation layer on a disturbed surface, and also due to erosion of the open pit sides due to their formation from loose deposits, overlapping productive layer.

In the development of many mineral deposits, the thickness of the waste rock overlapping the mineral layer is small, therefore, overburden is not enough to flatten the sides and fill up the developed space (including deposits of sand and gravel, sand, clay, placer). This method is unacceptable for quarries with a small amount of overburden.

The closest in technical essence and the achieved result is a method of reclamation in open pit mining (AS No. 1062392, class E21C 41/00 / V.I. Gorkunov, BCZavalishin, K.Z. Valiev, published December 23, 83, Bulletin No. 47).

Common signs of the prototype with the claimed method are the movement and storage of overburden at the borders of the quarry field on the outside sides in the tape dumps, and the soil layer in the tape warehouse (dump) to the bottom in the center of the spent quarry field, the movement of overburden on the flattened surface of the sides and the bottom of the quarry and laying the soil layer overburden.

A comparative analysis of the proposed technical solution with the prototype shows that the main disadvantage of the latter is the low resistance of water erosion formed from loose deposits of laid open pit sides. During the development of deposits of sand, clay and a sand-gravel mixture, the newly formed sides of the reclaimed excavation are washed away by rain and melt water, and therefore their natural overgrowing is delayed. In addition, this method is associated with increased danger of the operation of mining equipment on the sides of the quarry due to the possibility of their collapse or creep, as well as with additional disturbance of land outside the contour of the quarry. If a reservoir is created in the developed space, its depth at many quarries may not be sufficient to preserve the ichthyofauna in the winter.

The group of inventions is aimed at creating technologies for the restoration of disturbed lands, ensuring their faster recovery under various mining and technical parameters of field development and natural and climatic conditions.

The technical result consists in ensuring accelerated restoration of the ecosystem of lands disturbed by mining operations by increasing the stability of the laid open pits to erosion processes and creeping by forming them from stronger rocks taken from the bottom of the pit, as well as by creating reservoirs in the worked out space that are favorable for restoration their biological productivity parameters. Deepening the quarry allows to exclude the complete freezing of the created reservoir in the winter, which leads to the death of ichthyofauna.

The technical result is achieved by the fact that in the method of reclamation of quarries, described in claim 1 of the claims, which includes separate excavation, moving and storage of overburden at the edges of the quarry field on idle sides in tape dumps, and the soil layer in the tape warehouse at the bottom in the center of the waste quarry field, the movement of overburden on the flat surface of the sides and the bottom of the quarry and laying the soil layer on the overburden, according to the invention, the flattening of the sides is carried out from the bottom up We add their fillings using rocks taken from the bottom of the quarry.

Filling the sides with stronger rocks taken from the bottom of the quarry (sandstones, mudstones, shales, siltstones, etc.) allows increasing the resistance of the boards to erosion processes and providing the necessary drainage of excess water during precipitation and melting snow from the surface layers (overburden layer rocks and soil), acting as a drainage device and preventing landslide phenomena. When developing clay and sand deposits after reclamation of quarries without strengthening the sides, the erosion of the latter lasts for a long time. With insignificant thickness of the rocks overlying the reservoir (with an overburden ratio of less than 0.3-0.5), the volumes of the dumps are insufficient to flatten the sides by known methods or additional surface disturbance is required outside the quarry contours. Filling the sides with rocks from the bottom of the quarry allows you to provide a flattening without increasing the intensity of mining.

With a sufficiently large depth of the quarry, in order to reduce the complexity of the remediation work, partial filling of the sides of the quarry is carried out.

The technical result is achieved by the fact that in the method of reclamation of quarries, described in paragraph 2 of the claims, which includes separate excavation, moving and storage of overburden at the edges of the quarry field on idle sides in tape dumps, and the soil layer in the tape dump to the bottom in the center of the waste quarry field, the movement of overburden on the flat surface of the sides and the bottom of the quarry and laying the soil layer on the overburden, according to the invention, the flattening of the sides is carried out by adding ki from the bottom up to the top of the reservoir using rocks taken from the bottom of the quarry, after which flattening is carried out from top to bottom using overburden.

Filling the sides to the top of the reservoir allows us to protect weak rocks from minerals (sand, clay) from erosion, as well as to preserve the coal bed and prevent its oxidation or ignition.

In the case of conservation of the quarry, bedding with half-breed rocks allows reducing the amount of work to overlap the mineral by increasing the slope angle of the bedding, and also reduces the dilution of mineral raw materials by preventing natural flatness as a result of erosion processes.

In the event of a reclamation of the quarry with the creation of a pond in the worked out space, bedding prevents the abrasion or wave erosion of the laid sides.

The technical result is achieved by the fact that in the method of reclamation of quarries, described in paragraph 3 of the claims, which includes separate excavation, moving and storage of overburden at the edges of the quarry field on idle sides in tape dumps, and the soil layer in the tape dump to the bottom in the center of the waste quarry field, the movement of overburden on the flat surface of the sides and the bottom of the quarry and laying the soil layer on the overburden, according to the invention, the flattening of the sides is carried out by adding ki from the bottom up using rocks taken from the bottom of the quarry to the maximum mark of the predicted water level in the quarry flooded after reclamation, after which flattening is performed from top to bottom using overburden.

Due to significant fluctuations in the water level in bodies of water created during reclamation and the wave impact on the coastal side of the quarry, composed of loose sediments, they undergo exogenous processes and intense erosion with siltation of the bottom. Strengthening them with semi-rock rocks will increase their erosion resistance.

During the development of many deposits of building materials in river floodplains, as well as placers along small rivers and streams, the depth of quarries is limited to several meters. After the completion of mining operations, it is quite difficult to ensure the gravity removal of water from the worked out space and is often associated with additional disturbance of the lands when creating a drainage trench. At the same time, the creation of a pond in the worked out space is hindered by the insignificant pit depth, at which the pond can freeze to the bottom. The latter fact sharply complicates the process of recreation of ichthyofauna and ichthyoflora in these reservoirs due to their death in the winter. In some cases, swamping of the worked out space occurs. Under these conditions, the deepening of the production prevents the freezing of the reservoir to the bottom and thus provides a more intensive development of its biological productivity.

In such conditions, the technical result is achieved by the fact that in the method of reclamation of quarries, described in paragraph 4 of the claims, which includes separate excavation, moving and storage of overburden at the borders of the quarry field on idle sides in tape dumps, and the soil layer in the tape dump to the bottom in the center of the spent quarry field, moving the overburden to the flattened surface of the sides and the bottom of the quarry and laying the soil layer on the overburden, according to the invention, the flattening of the sides is carried out their bedding out by using a bottom-up rocks, taken from the bottom due to its quarry uglubki to a mark, created in the corresponding depth remediated career reservoir 0.5-1.0 m larger than the thickness of the ice.

The invention is illustrated by drawings, where in Fig.1 shows a diagram of the work on the reclamation of quarries according to the option described in claim 1, where

1 - soil layer;

2 - overburden layer;

3 - a layer of mineral;

4 - underlying (semi-rock) rocks (raft);

5 - board quarry;

6 - backfilling with rocks taken from the bottom of the quarry;

7 - a layer of grind of a raft from half-breed rocks (indicated by a dotted line);

8 - layer overburden on the laid side and the bottom of the quarry;

9 - soil layer on the flattened surface of overburden rocks;

10 - temporary overburden dump (indicated by a dotted line);

11 - temporary soil storage (indicated by a dotted line).

Figure 2 presents the scheme of work on the reclamation of quarries according to the option described in paragraph 2 of the claims, where

positions from 1-11 are the same as in figure 1,

12 - a prism from overburden rocks moved during flattening.

Figure 3 presents the scheme of work on the reclamation of quarries according to the option described in paragraph 3 of the claims, where the positions 1-12 are the same as in figures 1 and 2.

Figure 4 presents the scheme of work on the reclamation of quarries according to the option described in paragraph 4 of the claims, where the positions 1-12 are the same as in figures 1-3.

The method according to the variant described in claim 1 of the claims is carried out as follows. After cleaning the quarry field from vegetation, the soil layer 1 is removed and transported to a warehouse 11 located at the bottom of the quarry or on a previously overburden layer 8. The soil layer 1 can be excavated with a bulldozer and put into temporary bulk, from which the soil layer is loaded with an excavator in vehicles and transported to the storage location in the center of the career field. After this, overburden work is carried out with the placement of waste rock 2 in temporary tape dumps 10 beyond the contour of the quarry on idle sides 5. These operations can be carried out with bulldozers or scrapers. Upon completion of the overburden work, a mineral 3 is excavated in the outlined contours. After activating the worked-out areas, the sides are flattened using semi-rock 7 taken from the bottom of the quarry.

Excavation (curing) of the underlying mineral layer 3 layers of semi-rock 7 is carried out with bulldozers, if necessary equipped with cultivators. Filling of the sides of the quarry 5 is carried out in layers with an angle of slope of the laid side 7-23 ° depending on the direction of restoration of disturbed lands.

Filling of the sides can be done both to the upper edge and just below it. The height of the bedding is determined taking into account the total thickness of the overburden layer 8, applied from above, and the thickness of the soil layer 9, as well as taking into account the size of the sediment and the degree of filling of the pores of the semi-rock formations taken from the bottom of the quarry 7 with loose deposits of overburden rocks 2.

In order to accelerate the self-growth of the reclaimed surface, half-breed rocks 7, which make up the bedding 6, are covered with a layer of overburden rocks 2 with a thickness of at least 0.2-0.4 m, taken from temporary dumps 10 located at the edge of the sides. Overburden rocks 2 partially fill the pores of semi-bulky rocks of bedding 6 and thereby create an erosion-resistant and potentially fertile rock layer.

After applying a layer of overburden rocks 8 on the laid sides and the bottom of the quarry, a soil layer 9, taken from a temporary warehouse of soil 11, is laid on top of it. A layer of soil is applied with a bulldozer.

The method according to the variant described in claim 2 of the claims is carried out as follows. After cleaning the quarry field from vegetation, the soil layer 1 is removed and transported to a warehouse 11 located at the bottom of the quarry or on a previously overburden layer 8. The soil layer 1 can be excavated with a bulldozer and put into temporary bulk, from which the soil layer is loaded with an excavator in vehicles and transported to the storage location in the center of the career field. After this, overburden work is carried out with the placement of waste rock 2 in temporary tape dumps 10 beyond the contour of the quarry on idle sides 5. These operations can be carried out with bulldozers or scrapers. Upon completion of the overburden work, a mineral 3 is excavated in the outlined contours. After activating the worked-out areas, the sides are flattened using semi-rock 7 taken from the bottom of the quarry.

Excavation (curing) of the underlying mineral layer 3 layers of semi-rock 7 is carried out with bulldozers, if necessary equipped with cultivators. Filling of the sides of the quarry 5 is carried out in layers with an angle of slope of the laid side 7-23 ° depending on the direction of restoration of disturbed lands.

This version of the reclamation method is advisable to apply with a sufficiently large capacity of overburden, therefore, in order to reduce the complexity of the work, bedding is carried out to the roof of the reservoir. After this rock overburden from dumps 10 and prism 12 at the upper edge of the sides above the roof of the productive formation 3 is placed with a bulldozer on the laid side and the bottom of the quarry.

After applying a layer of overburden rocks 8, a soil layer 9, taken from a temporary warehouse of soil 11, is applied over the flanks and the bottom of the quarry. A layer of soil is applied with a bulldozer.

The method according to the variant described in claim 3 of the claims is carried out as follows. After cleaning the quarry field from vegetation, the soil layer 1 is removed and transported to a warehouse 11 located at the bottom of the quarry or on a previously overburden layer 8. The soil layer 1 can be excavated with a bulldozer and put into temporary bulk, from which the soil layer is loaded with an excavator in vehicles and transported to the storage location in the center of the career field. After that, overburden work is carried out with the placement of waste rock 2 in temporary tape dumps 10 beyond the contour of the quarry on idle sides 5. These works can be performed by bulldozers or scrapers. Upon completion of the overburden work, a mineral 3 is excavated in the outlined contours. After activating the worked-out areas, the sides are flattened using semi-rock 7 taken from the bottom of the quarry.

Excavation (curing) of the underlying mineral layer 3 layers of semi-rock 7 is carried out with bulldozers, if necessary equipped with cultivators. Filling of the sides of the quarry 5 is carried out in layers with an angle of slope of the laid side 7-23 ° depending on the direction of restoration of disturbed lands.

In order to reduce the amount of work on filling up the sides in cases of creating ponds in the worked out space, the filling is carried out to the marks corresponding to the maximum possible water level after flooding the output (as a rule, to the maximum natural level of groundwater).

After this rock overburden from temporary dumps 10 and prism 12 at the upper edge of the sides above the top of the reservoir 3 is placed with a bulldozer on the laid side and the bottom of the quarry.

After applying a layer of overburden rocks 8, a soil layer 9, taken from a temporary warehouse of soil 11, is applied over the flanks and the bottom of the quarry. A layer of soil is applied with a bulldozer.

The method according to the variant described in paragraph 4 of the claims is carried out as follows. After cleaning the quarry field from vegetation, remove the soil layer 1 and transport it to a warehouse 11 located at the bottom of the quarry or on a previously planned overburden layer 8. The soil layer 1 can be excavated with a bulldozer and put into temporary bulk, from which the soil layer is loaded with an excavator in vehicles and transported to the storage location in the center of the career field. After this, overburden work is carried out with the placement of waste rock 2 in temporary tape dumps 10 beyond the contour of the quarry on idle sides 5. These operations can be carried out with bulldozers or scrapers. Upon completion of the overburden work, a mineral 3 is excavated in the outlined contours. After activating the worked-out areas, the sides are flattened using semi-rock 7 taken from the bottom of the quarry.

Excavation (curing) of the underlying mineral layer 3 layers of semi-rock 7 is carried out with bulldozers, if necessary equipped with cultivators. Filling of the sides of the quarry 5 is carried out in layers with an angle of slope of the laid side 7-23 ° depending on the direction of restoration of disturbed lands.

This option of the reclamation method should be used with a large area of the worked out space and a slight excess of the natural level of groundwater above the bottom of the quarry (less than 1.5 m). In this case, the quarry should be deepened during reclamation by at least 0.5 m. In this case, the parameters of the bedding are determined by the volume of rocks obtained during the recess. The cross section of the bedding 6 will have a trapezoidal shape. After this rock overburden from temporary dumps 10 and prism 12 at the upper edge of the sides above the top of the reservoir 3 is placed with a bulldozer on the laid side and the bottom of the quarry.

After applying a layer of overburden rocks 8 on the laid sides and the bottom of the quarry, a soil layer 9, taken from a temporary warehouse of soil 11, is laid on top of it. A layer of soil is applied with a bulldozer.

Claims (4)

1. The method of reclamation of quarries, including separate excavation, moving and storing overburden at the borders of the quarry field on the outside sides to the tape dumps, and the soil layer in the tape warehouse to the bottom in the center of the spent quarry field, moving the overburden to the flattened surface of the sides and the bottom of the quarry and laying the soil layer on overburden, characterized in that the flattening of the boards is carried out from the bottom up by adding them using rocks taken from the bottom of the quarry. 2. A method of reclamation of quarries, including separate excavation, transfer and storage of overburden at the borders of the quarry field on idle sides to tape dumps, and the soil layer in the tape warehouse to the bottom in the center of the spent quarry field, moving overburden to the flattened surface of the sides and the bottom of the quarry and laying the soil layer on overburden, characterized in that the flattening of the sides is carried out by adding them from the bottom up to the top of the reservoir using rocks taken from the bottom of the quarry and then flattening is done from top to bottom using overburden. 3. A method of reclamation of quarries, including separate excavation, transfer and storage of overburden at the borders of the quarry field on idle sides to tape dumps, and the soil layer in the tape warehouse to the bottom in the center of the spent quarry field, moving overburden to the flattened surface of the sides and the bottom of the quarry and laying the soil layer on the overburden, characterized in that the flattening of the sides is carried out by adding them from the bottom up using rocks taken from the bottom of the quarry to the maximum elevation oziruemogo level of water in floods after remediation career then flattening produce downward using overburden. 4. A method of reclamation of quarries, including separate excavation, transfer and storage of overburden at the borders of the quarry field on idle sides to tape dumps, and the soil layer in the tape warehouse to the bottom in the center of the spent quarry field, moving overburden to the flattened surface of the sides and the bottom of the quarry and laying the soil layer overburden, characterized in that the flattening of the sides is carried out by adding them from the bottom up using rocks taken from the bottom of the quarry due to its depth to the mark , corresponding to the depth of the reservoir created in the reclaimed quarry, is 0.5-1.0 m more than the thickness of the ice.

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