RU2787487C1 - Method for forming a rectangular waste dump with an environmentally friendly orientation - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining, in particular to the development of deposits by an open method and the restoration of areas disturbed by open mining, and can be used in the extraction of minerals and the reclamation of rectangular rock dumps. A method for forming a rectangular waste dump with an environmentally friendly orientation, including the implementation of a pioneer dump embankment within the boundaries of a rectangular dump, formed bifurcated along the dump boundary to the left and right towards each other to the full design height of the tier, with simultaneous formation of reclamation along the perimeter of the outer slope of the rectangular rock dump under the tiers 5-7 m with slope angles in the range of 18-22°, with a slope of horizontal platforms towards the body of the dump, covered with a fertile soil layer, overburden intake of the quarry. When connecting the opposite boundary dump fronts of the tier, a dump embankment is performed with the development of the front of dump operations to the center of the designed dump body. The process is repeated when forming the next tiers of the dump up. A pioneer dump embankment within the boundaries of a rectangular dump is formed bifurcated along the dump boundary on the left and right to meet each other at the full design height of the tier. A dump embankment is performed with the development of the front of dump operations to the center of the dump body with the location of the short side of the rectangular dump front parallel to the axis of the wind rose vectors with the maximum value of the wind regime in this place according to long-term observations, as well as with the location of the axis of the entrance embankment of the rectangular dump parallel to the axis of the wind rose vectors with the maximum value of the wind regime and in the middle of the long side of the rectangular moldboard front. Reception of overburden rocks of a quarry is carried out in the mode of passing dumping in the direction of the wind at the current moment with the development of sectors of the front of dump operations to the center of a rectangular dump in the directions of the wind rose vectors in proportion to their length. A settling and quenching turbulent component of the dusting flow is formed inside the dumped slope of the tier of the rectangular dump front.

EFFECT: increasing the environmental efficiency of the dumped rock rectangular dump.

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Description

Technical field

The proposed method relates to mining, in particular to open-pit mining and restoration of territories disturbed by open-pit mining, and can be used in mining and reclamation of rectangular rock dumps.

State of the art

A known method of forming a dump with a bulldozer (patent RU 2059074, IPC A01B 75/02, publ.: 04/27/1996), including the combined filling of individual layers with the filling front of the underlying layer, leading to the fact that from the overlying layer, and access ramps are displaced as dump filling. The dump is formed by the leading filling of the lower base layer without rock uplift and the formation of banks of the pioneer layer closed along the perimeter, which divides the layer area into two equal parts with a common center, and the fronts of the layer space are filled with rocks directed to the center and periphery.

The disadvantage of this method is the low environmental efficiency of the dumped rock rectangular dump.

The closest method is known for the formation of a waste dump with an environmentally friendly orientation (Technology of reclamation and arrangement of disturbed lands in Western and Eastern Siberia / I.V. Zenkov et al. - Krasnoyarsk: SFU, 2015. - 309 p., p. 93), including the implementation of a pioneer dump embankment, the development of the front of dump operations to the design boundaries of the dump, the formation of a slope of a rock dump along the perimeter with tiers of 5-7 m with slope angles in the range of 18-22 °, with a slope of horizontal platforms towards the dump body covered with a fertile soil layer.

The disadvantage of the closest method is the low environmental efficiency of the dumped rock rectangular dump.

Disclosure of invention

The technical result is to increase the environmental efficiency of the dumped rock rectangular dump.

The present technical result is achieved in a method for forming a rocky rectangular dump with an environmentally friendly orientation, including the implementation of a pioneer dump embankment within the boundaries of a rectangular dump, formed bifurcated along the dump boundary on the left and right towards each other to the full design height of the tier, with simultaneous formation of reclamation along the perimeter of the outer slope of a rectangular rock dump under tiers of 5-7 m with slope angles in the range of 18-22 °, with a slope of horizontal platforms towards the body of the dump covered with a fertile soil layer, the reception of overburden rocks of the quarry, when connecting the opposite boundary dump fronts of the tier, is performed with the development of the front dump works to the center of the designed body of the dump, the process is repeated when forming the next tiers of the dump upwards, and the pioneer dump embankment within the boundaries of the rectangular dump, formed bifurcated along the dump boundary on the left and right to meet each other for the full design the height of the tier is performed with the development of the front of dump operations to the center of the dump body with the location of the short side of the rectangular dump front parallel to the axis of the wind rose vectors with the maximum value of the wind regime in this place according to long-term observations, as well as with the location of the axis of the entrance embankment of the rectangular dump parallel to the axis of the rose vectors winds with the maximum value of the wind regime and in the middle of the long side of the rectangular dump front, the reception of overburden rocks of the quarry is carried out in the mode of passing dumping in the direction of the wind at the current moment, with the development of sectors of the front of dump operations towards the center of the rectangular dump along the directions of the wind rose vectors in proportion to their length, formed precipitating and quenching the turbulent component of the dust flow inside the dumped slope of the tier of the rectangular dump front.

The distinguishing features are:

a pioneer dump embankment within the boundaries of a rectangular dump, formed bifurcated along the dump boundary on the left and right to meet each other to the full design height of the tier, is performed with the development of the front of dump operations to the center of the dump body with the location of the short side of the rectangular dump front parallel to the axis of the wind rose vectors from the maximum value of the wind regime in this place according to long-term observations, as well as the location of the axis of the entrance embankment of the rectangular dump parallel to the axis of the wind rose vectors with the maximum value of the wind regime and in the middle of the long side of the rectangular dump front, this increases the environmental efficiency of the heaped rock dump;

Reception of overburden rocks of a quarry is carried out in the mode of passing dumping in the direction of the wind at the current moment, with the development of sectors of the front of dump operations to the center of the rectangular dump along the directions of the wind rose vectors in proportion to their length, formed by the precipitating and quenching turbulent component of the dust flow inside the dumped slope of the tier of the rectangular dump front , this increases the environmental efficiency of the dumped rock dump, by reducing the dusting of slopes in the process of dumping with a created microclimate.

Comparison of the proposed solution with analogue and prototype did not reveal in them the features that distinguish the proposed solution, which allows us to conclude that the criterion of "novelty" is met.

Brief description of the drawings

Figure 1 shows a diagram of the formation of a rock rectangular dump with an environmentally friendly orientation, including: 1 - bifurcation of the pioneer dump embankment along the border of the rectangular dump on the left and right; 2 - formation of the boundary dump front of the pioneer embankment of the stage on the left; 3 - a horizontal platform with a slope towards the body of the dump, covered with a fertile layer of soil; 4 - recultivated upper sublayer, the original dump embankment, formed along the perimeter of the outer slope of the rock dump, with a fertile soil layer; 5 - the junction of the opposite boundary dump fronts of the tier; 6 - development of the front of dump operations to the center of the projected body of a rectangular dump; 7 - formation of the boundary dump front of the stage on the right; 8 - slope of the lower substage; 9 short side of a rectangular moldboard front; 10 - long side of the rectangular dump front; 11 - wind rose in this place according to long-term observations; 12 - the axis of the wind rose vectors with the maximum value of the wind regime; 13 - axis of the entrance embankment of a rectangular dump.

Figure 2 shows the section A-A from figure 1 rock rectangular dump, including: 14 - air flow generated by the wind rose at the time of rock dumping; 15 - passing laminar component of the air flow at the front of dumping, carrying away dust particles; 16 - settling and quenching turbulent component of the dust flow on the slope of the dump layer during the acceptance of rocks; 17 - covering with a fertile layer of soil from the side of the external slope of the dump; 18 - pioneer dump embankment within the boundaries of a rectangular dump.

Implementation of the invention

The structure of the complex mechanization of the experimental waste dump site, with the simultaneous formation of the reclamation of the rectangular rock dump, provides for the use of: one bulldozer T-170 and one hydraulic excavator of the "backhoe" model with a bucket with a capacity of 1.5-2.0 m ³ , as the main excavation mechanism used to load the fertile soil layer. For the reclamation stage, two dump trucks with a carrying capacity of 18-20 tons and another T-170 bulldozer are additionally used.

The height of the tier of the rectangular waste dump of the experimental area was 10 m, and the height of the recultivated under tier was 5 m, which corresponds to the equipment used in mining. The pioneer dump embankment, carried out on the border of a rectangular dump 1, is formed bifurcated along the dump border on the left 2 and on the right 7 to meet each other at the full design height of the tier and perform it with the development of the front of dump operations to the center 6 of the dump body with the location of the short side 9 of the rectangular moldboard front parallel to the axis of vectors 12 of the wind rose 11 with the maximum value of the wind regime in this place according to long-term observations, formed by the quenching dust component inside the sides of the moldboard front. This work is carried out by one bulldozer T-170, which receives mining dump trucks from overburden excavators and forms the boundary dump front of the pioneer embankment of tier 2 on the left. With a lag of 30-50 m from this front of the pioneer embankment of tier 2, an additional bulldozer T-170 performs from of this tier 2 under a tier with a reclamation horizontal platform 3 with a slope towards the dump body. The slope of the lower under tier 8 and the horizontal platform 3, tier 2 are covered with a fertile soil layer (FSP) or a soil mixture consisting of Quaternary overburden and soil layers up to 2 m thick according to [2]. Delivery of the PSP is carried out by additional two dump trucks from under the excavator of the upper overburden ledge. Simultaneous formation of reclamation along the perimeter of the outer slope of the rock dump increases the environmental efficiency of the dumped rock dump, due to the immediate reduction of slope dusting during mining. When the boundary dump front reaches the pioneer embankment of the tier on the left 2, the position of the junction of the oncoming boundary dump fronts of tier 5, the dumping work with the bulldozer T-170 is transferred to the formation of the boundary dump front of the tier on the right 7. Similarly, reclamation work is performed with an additional bulldozer T-170 of the right slope of the dump 7 s the creation of a cover 12 with a fertile layer of soil from the side of the outer slope of the pioneer dump embankment 13 within the boundaries of a rectangular dump. When connecting the opposite boundary dump fronts of the tier in place 5, dump operations with the T-170 bulldozer are carried out in the direction of the development of the dump operations front to the center of the designed dump body 6, this increases the environmental efficiency of the dumped rock dump, by reducing the dusting of slopes in the process of dump operations with the created microclimate inside the layer being filled. Reception of overburden rocks of the quarry is carried out in the mode of passing rock dumping to the air flow 14, corresponding to the wind rose at the current moment of dumping, with the development of the front of dumping to the center of the dump 6 in the directions of the wind rose vectors 11 in proportion to their length. Under such conditions, a passing laminar component of the air flow 15 is formed at the front of dump operations, carrying away dust particles, and a precipitating and damping turbulent component of the dust flow 16 on the slope of the dump tier during the acceptance of rocks.

The execution of the parallel arrangement of the axis of the entrance embankment 13 in the middle of the rectangular dump and the axis of the vectors of the wind rose 12 with a maximum value generates traffic flows with a minimum mileage, and as a result, minimal dusting from transport operation.

The work of bulldozer dumping in the mode of associated dumping of rocks in the direction of the air flow 14 with a perpendicular location of the front of dumping operations to the axis of the wind rose vector currently creates a dampening component of dusting 16 inside the dump front at the slope of the tier. This condition is met when the air flow deviates from 130° to 45°.

Sources of information:

1. Patent RU 2059074, IPC A01B 75/02, Published: 04/27/1996;

2. Technology of reclamation and arrangement of disturbed lands in Western and Eastern Siberia / I.V. Zenkov and others - Krasnoyarsk: SFU, 2015. - 309 p., p. 93.

Claims (1)

A method for forming a rectangular rock dump with an environmentally friendly direction, including the implementation of a pioneer dump embankment within the boundaries of a rectangular dump, formed bifurcated along the dump boundary on the left and right towards each other to the full design height of the tier, with simultaneous formation of reclamation along the perimeter of the outer slope of the rectangular rock dump under the tiers 5-7 m with slope angles in the range of 18-22 °, with a slope of horizontal platforms towards the body of the dump covered with a fertile soil layer, the reception of overburden rocks of the quarry, when connecting the opposite boundary dump fronts of the tier, a dump embankment is made with the development of the dump front to the center of the projected body of the dump, the process is repeated when forming the next tiers of the dump up, characterized in that the pioneer dump embankment within the boundaries of the rectangular dump is formed bifurcated along the border of the dump on the left and right to meet each other at the full design height of the tier, dump embankment with the development of the front of dump operations to the center of the body of the dump with the location of the short side of the rectangular dump front parallel to the axis of the wind rose vectors with the maximum value of the wind regime in this place according to long-term observations, as well as with the location of the axis of the entrance embankment of the rectangular dump parallel to the axis of the wind rose vectors with the maximum value of the wind regime and in the middle of the long side of the rectangular dump front, the reception of overburden rocks of the quarry is carried out in the mode of passing dumping in the direction of the wind at the current moment, with the development of sectors of the front of dump operations towards the center of the rectangular dump along the directions of the wind rose vectors in proportion to their length, form a besieging and quenching the turbulent component of the dust flow inside the dumped slope of the tier of the rectangular dump front.

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