RU2524828C2 - Water supply for dredging - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining and can be used in dredging of valley and floodplain detritus. This method comprises construction of stream diversion channel, service pool for dredge and system of water treatment plants. Stream diversion channel is composed by natural bed in drag bank made at working the deposit in lengthwise direction with earth prism filling to inner slope of dredge bank. Extraction of mineral during stream diversion channel is carried out by asymmetric manoeuvring of dredge to ensure maximum cross-section area of dredge bank. Water level in service pool and water treatment plats is kept level with stream diversion channel water horizon.

EFFECT: higher environmental safety, decreased scope of works.

3 cl, 2 dwg

Description

The invention relates to the mining industry and can be used for dragee mining of valley and floodplain placers.

The invention is aimed at improving the environmental friendliness of mining operations and at creating an effective technology for dredged mining of placers.

Currently, almost 30% of gold is mined from placer deposits in the Russian Federation. At the same time, the share of the dragee method of developing placers, although it is decreasing, remains the most significant (more than 50%). The main reserves of placer sands are concentrated in valley and floodplain placers, which have a sufficiently large width. The development of such placers is carried out by transverse, longitudinally transverse and spiral passages of drags. Water supply of pelleting works is carried out mainly by closed or reverse circuits with wastewater treatment in sedimentation tanks created in the worked out space.

Issues of improving the safety of mining are currently very relevant and are included in the list of priority areas for the development of science and technology. The claimed method relates to priority areas "Technology to reduce the risk and reduce the consequences of natural and technological disasters" and "Technology of environmentally safe development of deposits and mining" [Alphabetical subject index to the International Patent Classification in priority areas of science and technology / Yu.G. Smirnov, E.V. Skidanova, S.A. Krasnov. - M .: PATENT, 2008. - p.65, 110].

A known method of circulating water supply of dragee works, including the construction of a channel, the creation of a technological reservoir and sedimentation tank [Lichaev V.R., Esinovskaya L.N., Chikin Yu.M. Guidelines for the selection and design of water supply, sanitation and water treatment methods in the development of placer deposits. - Irkutsk, 1990. - S.24-25].

Common features of the analogue with the claimed technical solution is the construction of a channel channel, the creation of a technological reservoir and treatment facilities.

The disadvantage of the analogue is the need for the construction of a channel channel outside the contour of reserves, which leads, firstly, to an increase in the area of land allotment, secondly, it requires additional significant costs, and thirdly, it often leads to a rise in the river channel relative to the floodplain and entails significant filtering leaks surface water, including in the direction of dragee cut. And finally, after the completion of mining operations, it is necessary to carry out work to restore the river bed, since the channel branches on the uvula (slopes) are temporary structures and should be filled up during restoration.

There is a method of closed water supply with the creation of longitudinal dams dipping to isolate the technological reservoir and treatment facilities from surface water [Leshkov V.G. Development of alluvial deposits. - M .: Publishing House Mountain Book, 2007. - S. 604-606, Fig. 10.1, c].

Common features of the analogue with the claimed technical solution are the diversion of surface water from the area of dredging works, the creation of a technological reservoir and treatment facilities.

The disadvantages of the analogue are the additional costs of dumping the embankment dam, an increase in the area of land allotment, significant filtration leaks either from the river bed or from the technological reservoir and treatment facilities, and finally, the need to restore the channel in the process of reclamation.

The prototype adopted a method of closed water supply of dragees with a channel channel, the creation of a technological reservoir for dredge and a system of wastewater treatment plants [Leshkov V.G. Development of alluvial deposits. - M .: Publishing House Mountain Book, 2007. - S. 604-606, Fig. 10.1, d].

Common features of the prototype with the claimed technical solution are the channel channel, the creation of a technological reservoir for dredge and a system of wastewater treatment plants.

The disadvantages of the prototype are the construction of the channel outside the contour of the reserves, significant differences in water levels in the channel and the technological reservoir and sedimentation tank, the need to return the river channel after completion of the development of reserves in the thalweg part of the floodplain.

The claimed technical solution is aimed at improving the environmental cleanliness of dragees.

The technical result consists in increasing the environmental safety of water supply of dragee works by reducing the area of disturbed lands and reducing the volume of hydraulic works for water disposal and restoration of the channel.

The technical result is achieved by the fact that in the method of supplying dragee water, described in claim 1, comprising conducting a drainage channel, creating a technological reservoir for dredge and a wastewater treatment system, according to the invention, the drainage channel is formed in the form of a restored channel in the dragus sinus formed by mining reserves in a longitudinal course, followed by dumping of an earthen prism onto an internal slope of dredged dumps.

When developing placers with dredges, the sinuses formed during the dumping process between the dumps and the side of the quarry have a sufficiently large cross section that allows the river to pass at a low flow rate, which eliminates erosion processes.

In order to prevent water exchange between the river and technological reservoirs, as well as to reduce water erosion of dragee dumps, an earthen prism is poured onto the internal slope of the dumps.

In order to increase the culminating capacity of the dungus sinus (living section), which is important for large watercourses, the parameters of the sinus should be increased.

The technical result is achieved by the fact that in the method of water supply for dragee works, characterized in claims 1 and 2 of the claims, including the formation of a channel channel in the form of a restored channel in the dungus sinus, formed by mining reserves in a longitudinal course, followed by dumping of the earth prism into the internal slope of dragees dumps, according to the invention, the extraction of minerals in the longitudinal course is carried out by asymmetric maneuvering of the dredge.

It is known that the method of extracting minerals by asymmetric dredging maneuvering is used to reduce dilution and loss of sand in the cross-dock pillars, as well as to create favorable conditions for the construction of water-bearing structures [V. Leshkov Development of alluvial deposits. - M .: Publishing House Mountain Book, 2007. - S.655-656, Fig. 10.1, c].

In the claimed technical solution, asymmetric maneuvering solves another problem and is used to expand the drageus sinus.

With a significant difference in water levels in the river and in technological and sewage reservoirs, filtration flows increase in the direction of falling levels. During filtration leaks from technological reservoirs into the river, the permissible level of pollution of surface waters may be exceeded. Therefore, a maximum reduction in water exchange between the river and technological reservoirs is required.

The technical result is achieved by the fact that in the method of water supply of dragee works, characterized in claims 1 and 3 of the claims, including the formation of a channel channel in the form of a restored channel in the dungus sinus, formed by mining reserves in a longitudinal course, followed by dumping of the earth prism into the internal slope of dragees dumps, according to the invention, the water level in the technological pond and wastewater treatment plants is maintained on the water horizon in the channel.

The water level is regulated by dams (water-supporting dams), jumpers.

Differences from the prototype prove the "novelty" of the proposed method.

The unknown influence of features similar to the distinctive essential features of the proposed method on the technical result, which consists in increasing the environmental safety of dragees and reducing the volume of hydraulic works and achieved by the claimed technical solution, proves its compliance with the patentability condition "inventive step".

The invention is illustrated by drawings, where figure 1 shows the dredge moves when working out two adjacent sections of the landfill:

1 - contour of the first section of the landfill;

2 - contour of the second section of the landfill;

3 - direction of the dredge moves;

4 - dragin sinus;

5 - natural river bed;

6 - channel drainage in the sinus in the first section;

7 - channel drainage (restored channel) in the pelvis sinus in the second section;

8 - dam.

Figure 2 shows a section of the development across the longitudinal stroke of the dredge with asymmetric maneuvering:

Position 4 is the same as in figure 1.

9 - ephelle dumps;

10 - pebble dumps;

11 - earthen prism.

The method of supplying dragees is as follows.

The development of the first section begins with the longitudinal course of the dredge along one of the contours 1. After the completion of the longitudinal course within section 1, the remaining part of the reserves in the contours of this section continues to be worked out. As the dredge moves longitudinally to the internal slope of the ephelle 9 and pebble 10 dumps, an earthen prism 11 is poured, blocking the dredge piles and reducing their water erosion and filtering leaks from the formed channel 6. After the earth prism 11 is finished filling, the natural riverbed 5 flows into the channel 6 , which is formed in the form of a restored channel, i.e. It is calculated on the passage of maximum flood water consumption of 1% of availability.

When developing a placer in an uprising, the last course of the dredge along the opposite contour of the first section of the placer is also longitudinal, with the formation of a sinus in the form of a restored channel. The same longitudinal course continues until the end of the second higher located section 2 with the subsequent dumping of the earth prism 11 into the internal slope of dredging ephelle 9 and pebble 10 dumps. After that, the river bed starts into the newly created channel channel 7.

After completion of mining the second section in a longitudinal stroke, dredging of the subsequent section begins in the same order. In the last section, the river channel is led into one of the channel channels formed along the contour of the reserves. A channel outlet at the opposite contour of reserves can be used to collect surface water from side tributaries with subsequent discharge of water into the river below all mining sites.

The dagger sinus along one of the contours of the reserves, which is formed in the form of a restored channel and is calculated for a maximum 1% supply flow rate of the river, is formed by asymmetric maneuvering of the dredge to increase its throughput and the live section of the water flow.

After mining the reserves in the longitudinal course of the dredge with the creation of the sinus pelvis with the required cross-sectional area, the earthen prism is poured onto the internal slope of the slag dumps. To do this, a bulldozer creates a road for vehicles or forklifts along the crest of drageous dumps. After that, overburden rocks are delivered by dump trucks or loaders, which are dumped along the roads and created on the dump from the side of the formed channel channel. At the final stage, an earthen prism is created from the delivered overburden by a bulldozer on the internal slope of dredge dumps.

The cross-sectional area of the earthen prism will be 20-30 m ² , which is less than the cross-sectional area of the channel channels created on the ridges of the valley at the maximum river discharge of more than 10-20 m ³ / s. In the valleys of fairly wide placers, the maximum discharge of rivers is several tens and hundreds of cubic meters per second. Consequently, the proposed technical solution will significantly reduce the volume of hydraulic works for the water supply of pelleted works even without taking into account the works necessary for the subsequent restoration of the channel in the process of reclamation with the traditional method of water supply.

In order to manage the water exchange between the surface runoff (river) and technological reservoirs and treatment facilities, the water level in the channel, technological and treatment reservoirs should be equal, which is regulated by dams at the boundaries of the plots, as well as by transverse bridges.

Claims (3)

1. The method of water supply for dragee works, including conducting a channel drain channel, creating a technological reservoir for dredge and a sewage treatment plant system, characterized in that the channel drain channel is formed in the form of a restored channel in the pellet sinus formed by mining reserves in a longitudinal passage, followed by dumping earthen prism to the internal slope of dredged dumps. 2. The method according to claim 1, characterized in that the extraction of minerals during the formation of the channel channel is carried out by asymmetric maneuvering of the dredge with the maximum cross-sectional area of the sinus sinus. 3. The method according to claim 1, characterized in that the water level in the technological body of water and wastewater treatment plants during the water supply of pelleting works is maintained on the water horizon in the channel channel.

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