RU2039152C1 - Method for hydraulic storage of grained waste products in worked-out quarry - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: method involves constructing a reservoir for storing waste products in quarry fillable story by story in height. Dumping pulp into the quarry takes place in distributed way using in turn distribution pipes located on different half-perimeters of the reservoir building above-water beach along the borders of the quarry and sedimentation pond in the middle of the quarry. Cross-drainage is constructed at the base of each story along the borders in the form of drainage ribbon made of geotextile or ribbon made of poured material and a drainage pipe communicating with the cavities of collector wells and having locking devices at the ends, each in the form of a leakage-proof flexible envelope and check valves. Antifiltration coating made of nonhardening composition or in the form of additions made of cohesive ground and placed in stories one over another is built each time on the quarry borders having the height of the following story of the reservoir from the quality surface of the drainage ribbon. The locking devices on the pipes are opened before the drainage ribbon of the next story is laid above a pipe but after forming over it a layer of sediments of preset height to prevent drainage pipe from being connected with the sedimentation pond. Water surface level is kept below the lower drainage layer during the process of storage the waste products in collector wells. Water uptake from sedimentation pond is performed by using floating water intake unit provided with blocking floating barrier with longitudinal over-water protective overhang. EFFECT: effective use of worked-out quarries for burying waste materials without causing harmful influence to the environment. 9 cl, 4 dwg

Description

 The invention relates to hydraulic engineering and can be used for hydraulic storage of granular waste in a recess with steeply inclined sides such as spent rock quarry.

 There is a method of hydraulic storage of granular waste in an exhausted quarry, including the creation of a quarry in the quarry with an impenetrable base and sides that are closed in plan, discharge of pulp into the reservoir with the formation of a surface beach from sediments and a settling pond, and partial withdrawal of clarified water from a settling pond.

 The disadvantage of this method is the possibility of environmental pollution by infiltration from the tank due to the high pressure of water on the sides of the quarry from the side of the tank, as well as the difficulty of working due to the inaccessibility to the sides of the quarry from the side of the filled tank.

 The purpose of the invention is to increase the efficiency of environmental protection and simplify the production of works.

 The goal is achieved by the fact that in the method of hydraulic storage of granular waste in a spent quarry, including the creation of a quarry in the quarry with an impenetrable base and sides that are closed in plan, dumping the pulp into the tank with the formation of a surface beach from sediments and a settling pond and partial withdrawal of clarified water from a settling pond the pond, the tank is carried out in a rock quarry and filled with pulp in tiers in height, and the pulp is discharged dispersed along the perimeter of the tank with the formation of a surface beach along the sides to a drainage channel, and at the base of each tier along the sides of the quarry drainage is arranged in the form of a drainage tape and a drainage pipe connected to the cavity of the collector well and containing a locking device at the end, and an anti-filter is arranged from the surface of the drainage tape, at least in the middle part of the tank covering the sides of the quarry to a height not lower than the top of the subsequent tier of the tank, and the locking device on each drain pipe is opened after the formation of a layer of deposits above it with a height that ensures rotation posts drainage pipe with a settling pond, and during storage of waste in the pit continuously maintain the water level below the outlet opening of the drain pipe of the lower tier of containers.

 Additionally, drainage tapes are made of artificial non-woven materials, such as geotextiles; the antifiltration coating of the sides of the quarry is made of a hardening composition; drainage tapes are made of bulk material; the antifiltration coating of the quarry sides is made of cohesive soil in the form of powders located tiered one above the other; each drain pipe at the entrance to the cavity of the collector well is carried out with a check valve to prevent water from entering the drain pipe from the collector well in case of unexpected filling with water; the locking device on the drainage pipe is opened before the drainage tape of the subsequent tier height is laid above it; during the creation of drainage and antifiltration coating in one tier of the tank in the settling pond, the minimum permissible water level is maintained; clarified water is taken from the sludge pond by means of a floating water intake made with a barrier boom closed around it, while the boom is made elongated in the direction of the farthest side of the quarry, and from the side of the two or three nearest sides of the quarry boom, they are made with longitudinal underwater visors that are impermeable to waste.

 The essence of the method is as follows.

 First, in the lower part of the rock pit, the first tier of the tank is created by the device of an anti-filter cover (screen) of the bottom and sides of the pit. Then, at the bottom of the quarry, intercepting drainage of the first tier of the tank in the form of a drainage tape and drainage pipe is arranged at its sides, and then granular waste is hydraulically stored in the first tier of the tank so that a surface beach forms along the sides of the quarry at the specified level (top of the first tier capacity), and in its middle part a slop pond. Further waste storage is carried out at the quarry sides of only one half of its perimeter, and at the sides of the second (remaining) half of the perimeter and along the sides in a pioneer way, drainage of the second tier of the storage is carried out, and from its high-quality surface, work is being done on the device to imperviously cover the quarry sides of the second highest tiers of storage. Then the waste is stored at the sides of the second half of the perimeter (where drainage is arranged, and the sides of the second tier are shielded with an antifiltration coating), after which the drainage and antifiltration coating of the sides along the entire perimeter of the quarry is completed, thus completing the creation of a second storey tier. In the same way, the waste is stored in the second finished tier of the storage and the third tier of the storage is prepared for filling (drainage and antifiltration coating of the sides are arranged), etc. Moreover, each time after covering the drainage with deposits of a given height, the drainage is activated by its hydraulic connection with the collector well while removing water from the well to a level below the lower drainage. This accelerates the dewatering of deposits located above the drainage and the acquisition by the deposits of the strength necessary to carry out work on the device of anti-filter coating of the sides from the surface of the subsequent drainage height, which, in turn, reduces the requirements for the bearing capacity of deposits.

 The proposed method improves the efficiency of protecting the environment from the infiltration of contaminants into it from the quarry due to a significant reduction in intercepting drainage of water pressure on the antifiltration coatings of the bottom and sides of the quarry. At the same time, the drainage itself provides access to the sides to perform anti-filtration work, and the implementation of a drainage tape from geotextile at the same time prevents erosion of deposits in the places of pulp production, while drainage from geotextiles practically does not reduce the useful storage capacity. The use of a floating water intake with a boom closed around it, equipped with an underwater protective visor, allows you to implement this method in an elongated narrow quarry.

 In FIG. 1 shows the current storage of granular waste, a plan; in FIG. 2 the same, a transverse section when performing a drainage tape of artificial non-woven materials, and the anti-filter coating of the sides of the hardening composition; in FIG. 3 the same, when performing a drainage tape from bulk material, and the anti-filter coating of the sides from a cohesive soil in the form of powders located tiered one above the other; in FIG. 4 node connecting the drainage pipe to the collector well, section.

 The method is as follows.

 PRI me R 1. The case of a narrow in terms of quarry. Storage, for example, ash is formed in a spent narrow rocky quarry 1 by erecting a dam 2 in the ramp 3. The bottom 4 of the quarry 1 (Fig. 2) is covered with an anti-filter layer 5 made of loam, and the lower parts of the sides are left 6, right 7 (view of the ramp ) and the face 8 of the quarry 1 is covered with an anti-filtration powder 9, also made of loam. Along the sides of the quarry 1 from the bulk material create a drainage in the form of a tape 10 and a pipe 11 located at the base of the first tier of the tank on layer 5 and adjacent to the powder 9. At the same time, a collector well 12 is installed at the left side 6 near the ramp 3, and 7 at the right side 7 at the opposite end of the quarry, the collector well 13. The drainage tape 10 at the collector wells is interrupted, and the ends of the drainage pipes 11 are inserted into the cavity of the wells and each is equipped with a temporary locking device, for example, in the form of a closed sealed shell 14 (fi . 4) of elastic material, filled with gas or liquid under pressure, and a check valve 15 preventing flow of water into the drain pipe 11 of the collector well in the event of unexpected water filling. Thus, in the lower part of the open pit 1, the first tier of the tank is created with two hydraulically independent intercepting drains located at the base of the storage tier along different longitudinal sides of the pit between two common collector wells 12 and 13. Then, through a hydrotransport system including a supply pipe 16 (Fig. 1), two distribution pipelines 17 (left side) and 18 (right side) located along the perimeter of quarry 1 above the level of its filling between the collector wells 12 and 13 and the branch pipe 19 (in FIG. 1, the involved branches are shown by arrows) with temporary outlet openings 20 (FIG. 2), the ash pulp is fed to the quarry and scattered along the perimeter of the quarry, it is discharged into the quarry until a surface beach 21 is formed at its sides from ash deposits 22, and in its middle part of the settling pond 23. The slope of the anti-filtration powder 9 and the bulk drainage tape 10 in the places of the pulp discharge from local erosion are protected by covering them with a towel 24 made of artificial non-woven materials (geotextiles), for example, filament grade F-1 or F-2 (TU 21-29-81-81) of phyllite (TU 63.178.110.83) or SIZI (U 17-14-101.79), and if necessary, quench chambers are installed at the outlet openings 20. The clarified water is taken from the settling pond 23 by means of a floating water intake 25, provided, if necessary, with a boom 26 closed around it, while the boom is extended elongated in the direction of the outermost side 8, and from the side of the dam 2 and longitudinal sides 6 and 7 of the open pit 1, the bon is equipped longitudinal underwater guardrails 27, impervious to waste. Such a water intake device makes it possible to draw quality water from the settling pond 23 and supply it to the discharge pipe 28 in the case of a narrow quarry and at the same time to form a surface beach 21 from the waste 22 along the sides due to the abrupt increase in the water depth directly in front of the floating water intake 25 through the peak 27 After the formation of deposits 22 of a predetermined height above the drainage, sufficient to prevent the drainage pipes 11 from communicating with the settling pond 23, the shells 14 are depressurized and removed from the drainage x pipes 11, and in the collector wells 12 and 13, by means of a lowering pump, a water level 29 is maintained below the level of the bulk drainage belt 10. As a result, deposits 22 located at the sides of the quarry above the drainage belt 10 are constantly in the process of dehydration and compaction by filtration forces. After filling the tank with deposits 22 at the sides to the set level, the pulp is discharged with only one distribution pipe, for example 17, (left side) until the surface beach 21 along the sides 6 and 8 approaches the upper level of the first tier of the tank. After that, the pulp is discharged only by the distribution pipe 18, and along the sides 6 and 8 on deposits 22, after they acquire sufficient load-bearing capacity during dehydration, from the collector well 12 to the collector well 13, drainage tape 30 is laid at the base of the second tier of the tank, made of artificial non-woven materials (geotextiles), and accompany it, as at the base of the first tier, with a drainage pipe 11, the ends of which are introduced into the cavities of the wells 12 and 13 and each is equipped with a sealed a bolochka 14 and a non-return valve 15. From the high-quality surface of the drainage tape 30, which significantly increases the bearing capacity of deposits, inspect the sides 6 and 8, seal open karst cavities and wide cracks with hardening materials, and, if necessary, apply a continuous or intermittent antifiltration coating 31 (Fig. . 2) from the hardening composition to a height not lower than the top of the subsequent (second) tier of the container. At the same time, for the period of drainage and anti-filtration coating of the sides to facilitate work in the settling pond 23, the minimum acceptable level is maintained by regulating the amount of water taken from the pond or by temporarily stopping the discharge of pulp into open pit 1, for example, if there is a reserve ash dump After the work is completed at the sides 6 and 8, the pulp discharge is switched to the distribution pipe 17, and at the starboard side 7, a drainage tape 30 is similarly arranged, a drainage pipe 11 is laid and a coating is applied. ytie 31 to board 7, completing thereby creating a second tier of container height. After that, ash ash is stored in the second tier of the tank in the same sequence as in the first tier, first through both distribution pipelines 17 and 18, then through only one pipeline, for example 17, and then through only another pipeline 18. In a similar way, tanks of the next highest height with poorly permeable sides and with drainage at the base and storage of ash waste in them until the cavity of the rock quarry is fully utilized 1. lecture-wells 12 and 13 is maintained constantly below the water level 29 a bulk level of the drainage belt 10 at the base of the first tier of capacitance, and most weathered and sloping sides in the upper layer may be coated with powder of loam, arranged with a natural ground surface.

 PRI me R 2. The case of a broad in terms of career. In a wide open pit, the hydraulic storage of granular waste improves the conditions for creating wide surface beaches and a settling pond, which simplifies the work on creating high-quality antifiltration coating on the surface of the sides. All work on the storage of waste in the quarry is carried out in the same sequence as in the case of a narrow quarry, example 1. In this case, the drainage tapes 32 (Fig. 3) are pioneered from bulk material, such as slag or sand and gravel, and the quality surface of the side of the quarry 1 is covered with loam in the form of powders 33, located tiered one above the other, and powder 33 of the upper (fourth) tier is arranged from the natural surface of the earth without the installation of a drainage tape at the base of the tier. If necessary, the drainage tape is performed combined: geotextiles are placed in the base of the bulk drainage layer.

Claims (9)

 1. METHOD FOR HYDRAULIC STORAGE OF GRAIN WASTE IN THE EXHAUSTED QUARRY, including the creation of a quarry in the quarry with an impenetrable base and sides that are closed in plan, discharge of pulp into the reservoir with the formation of a surface beach from sediments and a settling pond, and partial withdrawal of clarified water from sediment that the tank is carried out in a rock quarry and is filled with pulp in tiers in height, and the pulp is discharged dispersed along the perimeter of the tank with the formation of a surface beach along the sides of the quarry RA, and at the base of each tier along the sides of the quarry, drainage is arranged in the form of a drainage tape and a drainage pipe connected to the cavity of the collector well and containing a locking device at the end, and an anti-filter coating of the sides is arranged from the surface of the drainage tape at least in the middle part of the tank a quarry to a height not lower than the top of the subsequent tier of the tank, and the locking device on each drain pipe is opened after the formation of a layer of sediment above it, which ensures s posts drainage pipe with a settling pond, and during storage of waste in the pit continuously maintain the water level below the outlet opening of the drain pipe of the lower tier of containers.  2. The method according to p. 1, characterized in that the drainage tape is made of artificial non-woven materials, such as geotextiles.  3. The method according to claim 1, characterized in that the antifiltration coating of the sides of the quarry is made of a hardening composition.  4. The method according to p. 1, characterized in that the drainage tapes are made of bulk material.  5. The method according to claim 1, characterized in that the antifiltration coating of the sides of the quarry is made of cohesive soil in the form of powders, located belly one above the other.  6. The method of hydraulic storage of granular waste in an exhausted quarry according to claim 1, characterized in that each drain pipe at the entrance to the cavity of the collector well is performed with a check valve to prevent water from entering the drain pipe from the collector well if it is unexpectedly filled with water.  7. The method according to claim 1, characterized in that the shut-off device on the drainage pipe is opened prior to laying a drainage tape of a subsequent tier height above it.  8. The method according to claim 1, characterized in that during the creation of drainage and antifiltration coatings in one tier of the tank in the settling pond, the minimum permissible water level is maintained.  9. The method according to claim 1, characterized in that the clarified water is taken from the sludge pond by means of a floating water intake made with a barrier boom closed around it, while the boom is made elongated in the direction of the farthest side of the quarry, and from the side of the two or three nearest the sides of the bon pit are made with longitudinal underwater guardrails that are not permeable to waste.

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