RU2130104C1 - Method for putting-up of counterfiltration screen and flow-line for its realization - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: method can be employed at mining enterprises and in construction field for protection of water streams from fouling by filtration effluent and waste from industrial plants. According to method, erected are water-barring dikes which are provided with spillway structures. In addition following procedures are undertaken: delivery of clayey hydraulic slurry of benefication tailings, settling of solid phase from sedimentation, evacuation of clarified water, application of sediment to surface being screened, Also included are following operations: treating of clayey hydraulic slurry by solution of flocculent with rate of application being equal to 2-10 g/cu.m with subsequent mixing for separation of created flocs from sediment. Mixing of clayey hydraulic slurry with flocculent is carried out at velocity gradient of 10000-40000 s^-1. Prior to adding flocculent to clayey hydraulic slurry, introduced is coagulating agent which regulates pH of medium to value less than 6.5. In sediment being formed, regulated is proportioning of solid and liquid phases: S:L = 70-80: 30-20. Application of sediment to surface being screened is effected at pressure of 2-4 atm. Flow-line for realization of aforesaid method for creation of counterfiltration screen comprises successively arranged water-barring dikes, spillway structures, reagent station, mixer and flocculation unit, guiding device for transportation of mass flow of flocs, settling structure, pumping station for withdrawing clarified water. Also included in flow-line are following components: flow rate regulator of clayey hydraulic slurry which is installed before mixer and flocculation unit, device for delivery of coagulating agent which connects reagent station with mixer and flocculation unit, device for transportation and application of sediment which incorporates successively interconnected: sediment take up unit, dredge pump, and hydraulic giant which is adapted for circular turning. Guiding device for transportation of mass flow of flocs is provided with pipe unit for branching out clarified water. Application of aforesaid method and equipment allows for enhancing reliability of counterfiltration screen together with reduction of cost in carrying out mining operations. EFFECT: higher efficiency. 6 cl, 1 dwg method and equipment

Description

 The claimed group of inventions relates to hydraulic engineering and can be used in mining enterprises and in construction to protect watercourses from pollution by filtration wastewater and industrial waste.

 There is a method of creating an anti-filter screen by forming a layer of a given thickness from a lumpy clay soil and filling the voids between the clods with a previously prepared clay suspension (see A.S. N 1252428, class E 02 B 3/16, class 04.01.84) .

 The disadvantage of this method is that it does not provide sufficient stability of the screen to the action of pressure filtration, which leads to the removal of the clay-clay fraction and contamination of nearby reservoirs with suspended particles.

 There is also a method of creating an anti-filter screen by loosening the surface layer of the soil and simultaneously supplying a cobbing solution, for example, from a surfactant (see A.S. N 1065522, class E 2 B 3/16 of 07/09/82).

 The disadvantage of this method is that it leads to complication of production and high labor costs for the implementation, due to the fact that all the technological operations of the method are very laborious.

 Closest to the claimed invention is a method of creating an anti-filter screen of the tailing dump bed, which consists in the construction of water-holding dams equipped with spillway constructions, followed by the supply of clay solution for tailings, sedimentation of the solid phase of sediment, removal of clarified water, treatment of the surface layer with a surfactant solution and natural drying applied to soil of the layer (A.S. N 1395739, class E 02 B 3/16 from 06/13/86).

 The closest solution to the implementation of the proposed method is the production line, which includes sequentially communicated water-holding dam, spillway, reagent station, mixer-flocculent, settling structure, pumping station for the intake of clarified water (see Myazin V.P. and other Ecologically safe methods of increasing the effectiveness of the conditioning of wastewater and circulating waters of mobile processing plants / Mountain Information and Analytical Bulletin, issue 3, Moscow State University, M., 1995. - p. 48).

 The disadvantage of this method and device is that they do not provide high reliability of the screen to the action of pressure filtration of water and require significant operating costs when conducting mining.

 The proposed inventions can improve the reliability of the screen by increasing the adhesion between the particles of sediment deposited on the screen, and a higher density of flakes in the sediment, as well as reduce costs during mining operations.

The essence of the invention lies in the fact that in the method of creating an anti-filter screen, including the construction of water-holding dams equipped with spillway constructions, supplying clay slurry of enrichment tailings, sedimentation of the solid phase of sediment, removal of clarified water, deposition of sediment on the screened surface, the clay mixture is treated with a flocculant solution before deposition at a flow rate of 2-10 g / cm ³ , followed by stirring to isolate the formed sediment flakes.

The method also consists in the fact that the mixing of a clay slurry with a flocculant is carried out at a speed gradient of 10,000 - 40,000 s ^-1 . In addition, before adding the flocculant to the clay slurry, a coagulant is introduced that adjusts the pH of the mixture to values less than 6.5.

The method also controls the ratio of solid and liquid phases of the precipitate deposited on the screened surface,
T: W = 70-80 - 30-20
and the deposition of sediment is carried out under a pressure of 2-4 atm.

 A production line for creating an anti-filtration screen, containing a sequentially located water-holding dam, a spillway, a pumping station for taking clarified water, is additionally equipped with a clay slurry flow regulator installed in front of the mixer-flocculator, a transportation and sedimentation device.

 In addition, the device for transportation and deposition of sludge contains sequentially connected node collection of sediment, a suction pump and a hydraulic monitor, and the hydraulic monitor is installed with the possibility of circular rotation.

 In the known method, the low reliability of the anti-filter screen is due to the fact that the sediment layer is washed on the screened surface only due to gravitational deposition of clay particles, and the surfactant solution is not processed over the entire thickness of the precipitate, but only its surface layer, which does not provide high strength bonds between clay particles of the whole layer and with pressure filtration, clay particles are carried out into watercourses and the anti-filter screen is destroyed.

 In contrast to the known method, in the proposed method, an increase in the reliability of the anti-filter screen is ensured by an increase in the adhesion force between the sediment particles over the entire thickness of the applied layer and a higher density of sediment flakes.

 This result is achieved by the fact that the processing of clay slurry with a flocculant solution is carried out at a preliminary stage, before sedimentation. Adding a flocculant to the clay slurry and mixing the solution leads to the polymer bonding of clay particles to each other, forming strong flakes with a large adhesion force of the particles, not only on the surface, but throughout the thickness of the sediment.

The optimal consumption of flocculant - 2 - 10 g / m ³ creates the most favorable conditions for flocculation, i.e. The highest rate of precipitation of flakes and the transparency of clarified waters.

Mixing the slurry with the flocculant is carried out at a speed gradient of 10000-40000 s ^-1 , which, according to experimental data, allows to obtain more durable and stable sediment flakes.

 The introduction of a coagulant into the clay mixture, which lowers the pH of the mixture in a slightly acidic direction (less than 6.5), allows you to control the size of the flakes - the smaller the size of the flakes, the higher their specific surface area, and therefore, the stronger the adhesion forces between them. In addition, the deposition of sediment on the screened surface is carried out at a pressure of 2-4 atm, and the ratio of solid and liquid phases is regulated in the formed sediment - this allows you to create a more durable and reliable antifiltration screen due to deeper penetration of sediment particles into the pore space of the soil, increasing the matting effect in it.

 Thus, the introduction of a coagulant, a flocculant into a clay mixture, mixing the mixture at a certain speed, adjusting the ratio of solid and liquid phases in the sediment, and applying the precipitate on the screened surface under pressure allows us to create a more reliable antifiltration screen and reduce labor costs by intensifying the process of deposition and binding of flakes, those. Improve the use of tailings.

 The production line that implements the method additionally contains a clay slurry flow rate regulator, which allows you to adjust the gradient of the mixing speed of the clay-containing solution with the reagent and select the required size of the size of the allocated flakes injected into the soil pores, depending on the pore space.

 A coagulant supply device placed between the reagent station and the flocculation mixer allows you to control the coagulant supply, thereby adjusting the specific surface area and strength of the sludge flakes in the settling structure.

 The device for transportation and deposition of sediment allows the application of a dense layer on the screened surface of the soil under a pressure of 2-4 atm, and the installation of a hydraulic monitor with the possibility of circular rotation allows you to evenly distribute the screening layer around the entire perimeter of the hydraulic structure.

A method of creating an anti-filter screen is as follows. Clay-containing hydraulic mixture of tailings through the spillway is fed to the mixer-flocculator, where it is treated with a coagulant, to reduce the pH of the mixture to values less than 6.5. As a coagulant, metal chloride salts can be used, for example, ferric chloride at a flow rate of 30-40 g / m ³ . A flocculant is added to the thus treated slurry, which is used as a water-soluble polymer, for example, polyacrylamide domestic or imported at a flow rate of 2 to 10 g / m ³ . A clay-containing solution with additives of reagents is intensively mixed at a speed gradient of 10,000 - 40,000 s ^-1 . Polymer bonding of clay particles to each other takes place, durable flakes are formed, which have a large adhesion force of the particles. As a result of gravitational precipitation, the flakes precipitate, which has high colmatizing properties.

 The obtained flocculated sediment is applied to the screened surface of a hydraulic structure under a pressure of 2 - 4 atm. In this case, the content of solid and liquid phases is regulated in the sediment by controlling the flow rate of the clay-containing tailings solution and the discharge of clarified water.

 The drawing shows a production line for implementing the proposed method.

 The production line contains sequentially interconnected dam 1; spillway structures 2; clay slurry flow controller 3; mixer flocculation 4 connected to the reagent station 5 through dispensers 6 and 7 installed at the inlet of the mixer flocculent, guiding device 8, settling structure 9 with enclosing dam 10, pump station 11, spillway 12 located in the body of the dam and connected to sludge intake unit, dredger 14, process pipeline 15, hydraulic monitor 16.

 The production line works as follows. The clay-containing solution of the tailings of enrichment is fed by a hydrotransportation device through a spillway 2 to a mixer-flocculator 4, which is connected at the inlet to a reagent station 5, which supplies the flocculant solution through dispenser 7, and coagulant is supplied through dispenser 6.

 In the mixer-flocculation 4 is mixing the slurry with reagents and the allocation of floc sediment. The change in the gradient of the speed of mixing the slurry to form strong, stable flakes is achieved by controlling the flow rate of the clay-containing solution of the tailings by controlling the flow regulator of the clay slurry.

 The emitted flakes through the guiding device enter the settling structure 9 with the enclosing dam 10. Due to the gravitational deposition of the flakes, they precipitate, and clarified water is pumped into the circulation by the pumping station 11. This ensures the repeated use of process water in circulation. In the sediment, the ratio of the solid and liquid phases is controlled by controlling the flow rate of the clay slurry entering the mixer-flocculator, and partially withdrawing the stream of clarified water from the process through the drain pipe of the guiding device 8.

 Dredge pump 14 through the site of collection of sediment flocculated flakes are fed through a process pipe 15 to the hydraulic monitor 16 mounted on a ball heel with the possibility of circular rotation. With a hydraulic monitor, a precipitate under a pressure of 2-4 atm is uniformly applied around the entire perimeter of the shielded hydraulic structure.

Claims (8)

1. A method of creating an anti-filter screen, including the construction of water-holding dams equipped with spillway constructions, supplying clay slurry of enrichment tailings, depositing a solid phase of sediment, removing clarified water, applying sediment to a screened surface, characterized in that the clay slurry is treated with a flocculant solution before flowing 2 to 10 g / m ³ , followed by stirring to isolate the formed sediment flakes. 2. The method according to p. 1, characterized in that the mixing of clay slurry with a flocculant is carried out at a speed gradient of 10000 - 40,000 s ^-1 .  3. The method according to claim 1 or 2, characterized in that before adding the flocculant to the clay slurry, a coagulant is introduced that regulates the pH of the medium to values less than 6.5.  4. The method according to claim 1, characterized in that in the formed precipitate deposited on the screened surface, the ratio of solid and liquid phases T is regulated: W = 70 - 80 - 30 - 20.  5. The method according to claim 1 or 4, characterized in that the deposition of the precipitate on the screened surface is carried out under a pressure of 2 to 4 atm.  6. A production line for creating an anti-filter screen, containing a sequentially located water-holding dam, a spillway, a reagent station, a flake mixer, a guiding device for transporting a mass flow of flakes, a settling structure, a clarified water intake pumping station, characterized in that it further comprises a flow rate regulator clay slurry installed in front of the mixer-flocculent device for supplying coagulant, connecting reagent st ntsiyu-flocculator with a stirrer and a conveying device applying precipitate.  7. The line according to claim 6, characterized in that the device for transportation and deposition of sludge contains sequentially connected node collection of sediment, a suction pump and a hydraulic monitor, and the hydraulic monitor is installed with the possibility of circular rotation.  8. The line according to claim 6 or 7, characterized in that the guide device for transporting the mass flow of flakes is equipped with a drain pipe for draining clarified water.