RU2719894C1 - Method of combining operations for extraction of minerals and restoration of lands during development of steep-dipping deposits - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention simultaneously relates to mining operations and to technical stage of land reclamation, which are disturbed as a result of extraction of stocks of approximated steep deposits. Proposed method comprises separate excavation, movement and storage of rocks. At that, along the perimeter of the upper edge of the pit, at the end of development, a barrier dam is created for subsequent storage in the contoured space of wastes of processing of minerals similar in composition to the developed rocks, for this, at the stage of mining operations, performing selective development of soil layer, loose and rock overburden, mineral resources and their movement, respectively, to temporary dump of loose rock enclosing dam, temporary dumping of rock of enrichment plant, from the territory of the enclosing dam before the beginning of works on its formation, completely removing the soil layer, construction of the dam is carried out layer by layer upwards in advanced order, along the periphery there are rolled off rock strips, between which laid loose rocks layers with thickness of not more than 1 m, and loose rocks with a filtration coefficient of not more than 0.001 m/day are used as an insulating layer, which are placed in the center of the enclosing dam, insulating layer is compacted using soil vibration rollers, forming a system of engineering protection by the "wall in the ground" principle to provide a hydraulic support, rocks on side of pit are poured at angle of natural slope from opposite side, escarpment of enclosing dam is formed with resultant angle in range of 7–23° depending on direction of reclamation of disturbed lands, as this slope is set to limit position, bulldozer plans its surface and preparation for application of soil layer, after construction of enclosing dam and performance of mining operations from its periphery storage of wastes of processing of minerals is carried out until moment of difference of marks of surface of stored wastes and ridge of enclosing dam is not 1 m, then performing application of loose rocks on entire surface of wastes from temporary dump of loose rocks with subsequent layout by bulldozer, according to bulldozer planned surface soil is applied, which is moved with dump trucks from warehouse, besides, for storage of industrial wastes on outer slopes congresses are formed, providing transport access to ridge of enclosing dam, after completion of planning works are filled with soil with seeds of perennial grasses meadow-weed group.EFFECT: reduced time of restoration of lands and their areas, withdrawn for placement of wastes of mining-processing industry, due to combination of works on extraction and performance of technical stage of reclamation.1 cl, 2 dwg

Description

The invention simultaneously relates to mining operations and to the technical phase of land reclamation disturbed as a result of mining reserves of closely related steeply dipping deposits.

The known method of reclamation of disturbed lands during open pit mining according to patent No. 2611749, selected as the closest analogue, includes separate excavation, movement and storage of soil layer and overburden in separate tape dumps, development of a quarry field, laying of the worked out space to the boundary of the upper ground level water construction waste, similar in composition to natural materials with different particle sizes, layer by layer, followed by compaction of each layer. Reclamation here boils down to the movement of all or part of the overburden into the mined quarry space and on the slopes.

The disadvantage of this method is the lack of sufficient volumes of construction waste to fill the developed space, which does not provide accelerated restoration of disturbed lands using this technical solution. This, in turn, requires the completion of mining operations before beginning the restoration of disturbed lands.

The technical objective of the proposed method is to reduce the recovery time of lands and their areas recovered for waste disposal of the mining and processing industry, as well as reducing the cost of transporting overburden to the dump.

The technical result is a reduction in the terms of restoration of land and their areas seized for the disposal of waste from the mining and processing industry, due to the combination of mining and implementation of the technical stage of reclamation. In addition, there is a reduction in the cost of transporting overburden to the dump. The technical problem is solved by the order and sequence of actions performed in time and space.

The invention is illustrated in the drawing, where in FIG. 1 is a diagram of the development of a field and the formation of a boundary dam; FIG. 2 - scheme of recovery of the worked out space.

The method includes creating a wall (3) along the perimeter of the upper edge of the quarry at the end of mining for subsequent storage in the contoured space of mineral processing waste that is close in composition to the rocks being developed (Fig. 1). For this, at the stage of mining, selective development of the soil layer, loose (5) and overburden rock (6), mineral reserves (7) and their movement, respectively, to the temporary dump of loose rock (2) enclosing the dam (3) are carried out. ), a temporary dump of rock (1) or an enrichment plant.

Loose rocks with a filtration coefficient of not more than 0.001 m / day. used as an insulating layer (8), which are placed in the center of the enclosing dam, forming an engineering protection system on the principle of “wall in soil”. Before starting the work on its formation, the soil layer is completely removed from the enclosing dam. The construction of the dam is carried out in layers from the bottom up in a leading order, rock bands are sprinkled on the periphery, between which loose rocks are laid in layers with a thickness of not more than 1 m.To achieve the required filtration characteristics of the insulating material, it is compacted using soil vibration rollers. The created core of the dam (4) in the body of the enclosing dam (3) provides hydraulic resistance. Rock formations are poured from the quarry at an angle of repose, which reduces the need for the land area. On the other hand, the slope of the enclosing dam is formed with a resulting angle in the range of 7-23 ° depending on the chosen direction of reclamation of disturbed lands. As this slope is set to its limit position, the bulldozer plans its surface and prepares for applying the soil layer. Upon completion of the construction of the enclosing dam and mining operations from its periphery, storage (Fig. 2) of the waste (9) of mineral processing is carried out until the difference between the surface marks of the stored waste and the crest of the enclosing dam is 1 m. Then, the entire surface is applied loose rock waste (5) from a temporary dump (2) followed by bulldozer planning. On the surface planned by the bulldozer, the soil is applied, moved by dump trucks from the warehouse.

A common sign of an analogue with the claimed object is the filling of the quarry mined-out space.

The method is as follows.

Initially, the soil layer is completely removed from the boundary dam before starting work on its formation. Next, a layer-by-layer construction of the enclosing dam along the perimeter of the upper edge of the quarry at the end of mining is carried out for subsequent storage in the contoured space of mineral processing waste that is close in composition to the rocks being developed. For this, at the stage of mining operations, the soil layer, loose and rock overburden, mineral reserves and their transfer, respectively, to the warehouse, enclosing the dam / temporary dump, enrichment plant, are selectively developed. Loose rocks with a filtration coefficient of not more than 0.001 m / day. used as an insulating material, which fits into the center of the enclosing dam, forming an engineering protection system on the principle of "wall in soil". The construction of the dam is carried out in layers from bottom to top in an advanced manner on the periphery of the rock bands are sprinkled between which loose rocks are laid in layers with a thickness of not more than 1 m. The created core in the body of the enclosing dam provides hydraulic resistance. Rock formations are poured from the quarry at an angle of repose, which reduces the need for the land area. On the opposite side, the slope of the enclosing dam is formed with a resulting angle in the range of 7-23 ° depending on the direction of restoration of disturbed lands. As this slope is set to its limit position, a bulldozer leveling out its surface and preparing for applying the soil layer is carried out. Upon completion of the construction of the enclosing dam and mining operations from its periphery, mineral processing waste is stored until the difference between the surface marks of the stored waste and the crest of the enclosing dam is 1 m. Then, loose rock from the temporary dump is applied to the entire surface, followed by layout bulldozer. On the surface planned by the bulldozer, the soil is applied, moved by dump trucks from the warehouse. In order to compensate for surface shrinkage and prevent the accumulation of surface water in the center of reclaimed land, the formation of an insulating layer on top of the stored waste or its products is carried out with a positive slope of 3 ° from the periphery to the center.

The present invention provides a reduction in the time for restoration of land and their land area seized for waste disposal of the mining and processing industry, due to the combination of mining and implementation of the technical stage of reclamation. In addition, there is a reduction in the cost of transporting overburden to the dump. To do this, in a method of combining mining and restoration of land during the development of steeply dipping deposits, including the creation of a boundary dam along the perimeter of the upper edge of the quarry at the end of mining for subsequent storage in the contoured space of mineral processing wastes that are close in composition to the rocks being developed. For this, at the stage of mining operations, the selective development of the soil layer, loose and rock overburden, mineral reserves and their transfer, respectively, to the warehouse, enclosing the dam / temporary dump, and the processing plant, is carried out. Loose rocks with a filtration coefficient of not more than 0.001 m / day. used as an insulating material, which fits into the center of the enclosing dam, forming an engineering protection system on the principle of "wall in soil". Before starting the work on its formation, the soil layer is completely removed from the enclosing dam. The construction of the dam is carried out in layers from bottom to top in an advanced order on the periphery of the rock bands, sprinkled with loose rocks between which layers are laid with a thickness of not more than 1 m.To achieve the required filtration characteristics of the insulating material, it is compacted using soil vibration rollers. The created core in the body of the enclosing dam provides hydraulic resistance. Rock formations are poured from the quarry at an angle of repose, which reduces the need for the land area. On the other hand, the slope of the enclosing dam is formed with a resulting angle in the range of 7-23 ° depending on the direction of restoration of disturbed lands. As this slope is set to its limit position, the bulldozer plans its surface and prepares for applying the soil layer. Upon completion of the construction of the enclosing dam and mining operations from its periphery, mineral processing waste is stored until the difference between the surface marks of the stored waste and the crest of the enclosing dam is 1 m. Then, loose material from the temporary dump is applied to the entire surface with the subsequent planning bulldozer. On the surface planned by the bulldozer, soil is applied, displaced by dump trucks from the warehouse, in addition, exits are formed on the external slopes to store industrial waste, providing transport access to the crest of the enclosing dam. At the end of the planning work, they sprinkle with soil soil with seeds of perennial grasses of the meadow-weed group.

The implementation of this technical solution provides a reduction in the terms of restoration of land and land plots needed to accommodate external dumps and mineral processing waste requiring the construction of specialized storage devices, and also eliminates the need to attract additional soil to restore the fertile layer. Given the fact that the mined quarry space, dumps and specialized drives are subject to mandatory reclamation at the end of its operation, the introduction of this invention will reduce the time for land restoration, reduce the environmental burden of mining enterprises on the environment, and reduce land acquisition. The use of overburden with the aim of forming enclosing dams with angles of external slopes in the range of 7-23 °, as well as the use of enrichment waste and products of their processing, made it possible to obtain a reclamant suitable for filling the worked out quarry space, which helps accelerate the period of land restoration.

Claims (1)

A method of combining mining and restoration of land during the development of steeply dipping deposits, including separate excavation, movement and storage of rocks, characterized in that a fencing dam is created along the perimeter of the upper edge of the quarry at the end of mining for subsequent storage of mineral processing waste into the contoured space, similar in composition to the developed rocks, for this, at the stage of mining, selective development is carried out on of the veneer layer, loose and rock overburden, mineral reserves and their movement, respectively, to the temporary dump of loose rock of the enclosing dam, the temporary dump of rock of the beneficiation plant, completely remove the soil layer from the territory of the enclosing dam before starting work on its formation, construction of the dam they are carried out in layers from bottom to top in an advancing order, ribbons of rock are poured along the periphery, between which loose rocks are laid in layers with a thickness of not more than 1 m, and loose rocks with with a filtration coefficient of not more than 0.001 m / day, they are used as an insulating layer, which are placed in the center of the enclosing dam, compacting the insulating layer using soil vibratory rollers, forming an engineering protection system on the principle of “wall in soil” to provide hydraulic shock, rock from the side the quarry is poured at an angle of natural slope, on the opposite side, the slope of the enclosing dam is formed with a resulting angle in the range of 7-23 ° depending on the direction of remediation land, when this slope is set to the limit, the surface is planned by the bulldozer and the soil is prepared for application, and upon completion of the construction of the boundary dam and mining operations from its periphery, mineral processing waste is stored until the difference between the surface marks of the stored waste and the crest of the enclosing dam will not be 1 m, then they apply the entire surface of loose rock waste from a temporary dump of loose rock with subsequent lay-out with a bulldozer, on the surface planned by the bulldozer, apply soil soil moved by dump trucks from the warehouse, in addition, ramps are formed on the external slopes for storage of industrial waste, which provide transport access to the crest of the dam wall, at the end of the planning work, they sprinkle with soil soil with perennial seeds meadow-weed group.

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