RU2754754C1 - Water disposal method in development of bedded deposits by uprising with internal dumping - Google Patents

Abstract

FIELD: mining industry.

SUBSTANCE: invention relates to mining and can be used in the development of flooded inclined bedded deposits. The method for drainage during the development of bedded deposits by uprising with internal dumping includes the formation of a dump by means of a dump, a device below the level of the base of the dump along its front, alternately in each run of catchment sump, and the subsequent pumping of water from the sump into the bosom created between the lower side of the working and the slope of the inner dump. Before opening the deposit and driving a cut trench along its lower side to the length of the intended sinus, the rocks are loosened to the depth of the sinus. The dumping of the external dump is carried out with the creation of a berm between the dump sole and the upper edge of the working - the sinus. The width of the berm is set considering the possibility of movement and operation of excavators with bottom digging.

EFFECT: increasing the filtration capacity of the rock mass below the mined-out space.

1 cl, 1 dwg

Description

The invention relates to mining and can be used in the development of flooded inclined stratal deposits.

Development of inclined seam deposits is carried out mainly by uprising with overburden storage in internal dumps. At the same time, during the development of deposits, a significant amount of groundwater and atmospheric precipitation enters the worked-out area, which must be diverted from the developed reserves to create favorable conditions for mining operations. At the same time, pumping out of quarry water outside the quarry field entails an increase in the negative impact of mining operations on the environment.

Known methods of drainage of quarry waters through underground mine workings, incl. Wassertracks (Abramov S.K., Skirchello O.B. Drainage of mine and quarry fields. - M.: Nedra, 1968. - 254 p.).

However, the creation of underground mine workings, firstly, is a very laborious and expensive process, and secondly, it most often involves the removal of contaminated quarry waters to the surface below the quarry.

Known methods of drainage of open pit waters using drainage elements of mine drainage, created below the bottom of the worked out open pit (patents RU No. 2165018, 2269652, 2541341, 2162122, 2015021, 2382144). These methods are also technologically complex and resource-intensive and are not very suitable for shallow reservoir fields with a rapid advance of the work front.

There are known methods of water disposal by collecting underground waters entering the workings and pumping them through wells underground outside the mining area (patents RU No. 2037012, 2448216, 2730276).

There are also known methods of groundwater drainage by collecting, pumping and supplying it to an underground water collector and then to an aquifer beyond the boundary of the depression funnel (patents RU No. 2293819, 977582).

These methods require large capital expenditures and are characterized by high energy consumption.

The closest technical solution, chosen as a prototype, is a method of water disposal in the development of reservoir deposits by uprising with internal dumping (patent RU No. 2722327, IPC E21F 16/00, E02D 19/06, published on 05/29/2020), including the formation of a dump by jams, the device below the level of the base of the dump along its front, alternately in each entry of the catchment sump, and the subsequent pumping of water into the bosom created between the lower edge of the working and the slope of the inner dump.

This method of development during the advancement of the uprising front with the formation of dumps in the mined-out area ensures the drainage of open-pit water through the array of loose sediments lying below the mined-out area and the contours of the open pit, by pumping water into the sinus created along the lower edge of the excavation.

However, with a low filtration coefficient of the rocks that make up the side of the working, the drainage of quarry waters through the sediment massif can be difficult or requires large parameters of the sinus. In addition, as experience shows, with significant pollution of quarry waters with suspended particles and long-term use of the sinus, there is a gradual siltation of rocks (clogging) in the side of the mine with a significant decrease in their water permeability.

The invention is aimed at increasing the water permeability of the rocks that make up the side of the mine along the water intake sinus.

The technical result consists in increasing the filtration capacity of the rock mass below the worked-out area.

The technical result is achieved by the fact that in the drainage method described in the claims, which includes the formation of a dump by means of entryways, a device below the base of the dump along its front alternately in each run of the catchment sump and subsequent pumping of water from the sump into the bosom created between the lower side of the mine and the slope of the internal dump, according to the invention, before the opening of the deposit and the cutting of a cut trench along its lower side to the length of the intended sinus, the rocks are loosened to the depth of the sinus, and the dumping of the external dump is carried out with the formation of a berm between the dump sole and the upper edge of the working (sinus). The width of the berm is set taking into account the possibility of moving and working on it of small excavators with bottom digging.

The presence of distinctive features allows us to conclude that the claimed invention meets the “novelty” condition of patentability.

In the proposed technical solution, it is planned to increase the water permeability of the rocks that make up the lower side of the mine, by loosening them to the depth of the sinus. Loosening of rocks makes it possible to increase their filtration coefficient by 1.5-5.0 times. An increase in the porosity of rocks during loosening from 0.15 to 0.25 makes it possible to increase the filtration coefficient by 2-3 times (Handbook of a hydrogeologist / edited by M.E. Altovsky. - M., 1962. - pp. 133-134.

Thus, it is possible to reduce the parameters of the sinus or significantly extend the period of its effective use.

With a large amount of suspended matter in the quarry water, intensive silt formation in the sinus can lead to the deposition of silt on the side of the mine with the creation of a waterproof screen, which will be an obstacle to drainage of water from the sinus. To remove sludge in the bosom on the side of the mine, it is proposed to use a backhoe-type excavator. To ensure its movement and operation along the sinus, a berm is formed between the upper edge of the mine flank (sinus) and the bottom of the outer dump.

Currently, there are known methods of increasing the water permeability of rocks with improving their drainage properties by loosening them using a drilling and blasting method (Talgamer B.L., Dudinsky F.V. Drainage of loose sediments by creating drainage in hard underlying rocks. . - No. 3. - S. 4-6)).

However, the methods used for loosening the rock mass are carried out below the groundwater level in order to lower it. In the proposed method, the loosening of the rocks is carried out mainly above the groundwater horizon to increase the filtration capacity of the rocks after the formation of the sinus and the creation of a water pressure.

The invention is illustrated by a drawing, where FIG. presents a longitudinal section of a quarry developed by uprising according to the claims, where

1 - reservoir minerals;

2 - overburden;

3 - the surface of the deposit;

4 - quarry board;

5 - berm between excavation and dump;

6 - external dump;

7 - outer slope of the dump of the first entry;

8 - a sinus between the side of the quarry and the dump;

9 - loosened rock mass;

10 - waterproof screen;

11 - catchment sump;

12 - the bottom of the quarry;

13 - pumping station;

14 - reservoir in the bosom.

The method described in the claims is carried out as follows.

Opening of mineral reserves - 1 stratal deposit is carried out using a cut trench, cut along the lower border of the open pit field. Waste rocks - 2 from the cut trench are stored on the surface of the deposit - 3 at the side of the quarry - 4 with the formation of a berm - 5 and the dumping of the external dump - 6. The overburden from the first run is dumped into the goaf created during the cutting of the cut trench. In this case, between the side of the working - 4 and the slope of the dump of the first entry - 7, a sinus is created - 8. The depth of the sinus is set taking into account the provision of gravity removal of pit water through previously loosened rocks (for example, using drilling and blasting operations) - 9 and is calculated using the Darcy formula. On the outer slope of the dump of the first entry - 6, a waterproof screen - 10 is created, for example, from clay rocks. With a high thickness of overburden, to create a sinus of design parameters, if necessary, increase the width of the cut trench and reduce the width of the first entry.

During the development of the second and subsequent runs with the creation of catchment sump - 11 below the level of the base of the dump (the bottom of the quarry) - 12 using a pumping station - 13 open pit waters are pumped into the bosom - 8 with the creation of a reservoir - 14. From the reservoir, open pit waters by filtration through loosened rocks - 9 drain along the fall of the terrain, providing replenishment of groundwater resources.

In the created reservoir there are conditions for sedimentation of silty particles, and filtration through loose sediments ensures the purification of pit waters from oil products and fine clay particles.

In the case of siltation of the side of the working along the sinus, using a backhoe-type excavator, silt removal is carried out with cleaning the filtering surface of the sinus.

Claims (1)

A method of drainage during the development of seam deposits by uprising with internal dumping, including the formation of a dump by stalls, a device below the level of the base of the dump along its front, alternately in each run of catchment sump and subsequent pumping of water from the sump into the bosom created between the lower side of the working and the slope of the inner dump, characterized in that before opening the deposit and cutting a cut trench along its lower side to the length of the intended sinus, the rocks are loosened to the depth of the sinus, and the external dump is dumped with the creation of a berm between the dump sole and the upper edge of the working - sinus, while the width of the berm is set with taking into account the possibility of moving and working on it excavators with bottom digging.

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