RU2077512C1 - Reactants dispensing station - Google Patents

Abstract

FIELD: effluents purification and water treatment during beneficiation of economic minerals. SUBSTANCE: reactants dispensing station comprises distributor, activator and mixer-flocculator. Distributor is connected to discharge end of go-down reservoir and arranged at inlet of mixer-flocculator, at other end of which activator is connected through pipeline to distributor. Mixer-flocculator is connected through pipeline to go-down reservoir and is arranged so that its inclination angle relative to go-down reservoir is variable. Mixer-flocculator comprises several proportioning devices connected by pipelines to distributor. EFFECT: reliable arrangement for dispensing reactants. 3 dwg

Description

 The invention relates to wastewater treatment technology and water treatment systems for mineral processing and can be used in other industries.

 The closest in technological essence is the reagent station (RS), consisting of the main and consumable tanks, pipelines, dispenser, loading unit.

 The disadvantage of MS is the insufficiently high degree of flocculation of contaminants during conditioning and wastewater treatment due to the absence in the system of special activator devices and dispensers of working solutions of reagents that regulate the efficiency of the flocculation process in the zone of their mixing with polluting mass flows.

 The proposed technological placement of additionally installed devices in the PC system based on dispensers, activators and flake mixers allows to increase the physicochemical effect in the mixing zone of reagents with contaminants due to the additional activation of the prepared working solutions and regulation of the formation of more durable flakes to improve the quality of cleaning water.

 The essence of the invention lies in the fact that the RS is equipped with a distributor, activator and a flocculent mixer (CX), while the distributor is connected to the outlet of the supply tank and is installed at the input of CX, at the other end of which there is an activator connected by a pipeline to the distributor, CX is connected by a pipeline with capacity and made with the possibility of changing the angle of inclination and relative position relative to the supply capacity, the dispensers are located in the CX and connected by pipelines to the distributor.

 In the proposed RS CX is necessary for the preparation and subsequent redistribution of the working solution. The distributor distributes the initial liquid phase into the dispensers, and for a better structuring of the solution, it distributes it fractionally to the dispensers, eliminating the possibility of a “shadow” volume, that is, a volume in which, for example, a water-soluble polymer is present in small quantities or completely absent. Since the dispensers are located in the CX, they, in addition to supplying the reagent, provide for its better contact with wastewater passing through the CX and its mixing with it due to the formation of turbulent eddies. Already at this moment flocculation begins. In order for the wastewater to be as ready as possible for the suspended mud, for example, clay particles to coagulate together and then precipitate, it needs to be activated, for which part of the reagent is passed through an activator installed at the output end of the CX. Since in real conditions the PC is often installed on difficult terrain, the CX is made in conjunction with the supply capacity of the PC with the possibility of changing the angle of inclination and relative position with respect to this capacity. As a result, the necessary orientation of the wastewater stream and its speed are achieved in order to achieve an optimal mixing mode, which also positively affects the degree of water purification.

 Figure 1 shows a General view of the PC; figure 2 is a front view of the PC; figure 3 is a top view of a PC with a CX turn.

 PC consists of the main 1 and consumable 2 containers, distributor 3, activator 4 (magnetic nozzle), flocculent mixer (CX) 5, pipelines 6, dispensers located in the CX and connected by pipelines 6 and distributor 3, devices for removal and orientation CX 7. The distributor 3 is connected to the outlet of the supply container 2 by means of a coupling sleeve and is installed at the input of CX 5. One pipe is extended from the distributor 3 to the activator 4 installed at the output end of CX 5. The CX is connected by a movable link (for example, the coupling pipe ) From the supply container 2, and is set at the required angle and, if necessary, with respect to the supply tank 2 for the respective orientation of the flow of purified water through the device 7.

 During operation, the reagent is loaded into a container 1 with water, mixed to the state of the working solution. From the tank 1, the finished solution enters the supply tank 2 and from it to the dispenser 3. The dispenser divides the working solution into fractional portions, some of which are fed into pipettes through pipelines 6. Since the latter are located in CX 5, through which purified water flows, the solution evenly saturates the entire volume of water in fractional portions and dissolves in it. One portion of the solution from the dispenser enters the activator 4, where it is activated and mixed with water already treated with the solution. The treated water with an activated working solution almost at the exit from the CX already begins to be purified: suspended particles, for example clay-clay, particles are concentrated and precipitate in the form of flakes, and during the recirculation period the water again enters the purification process with a minimum viscosity and in the activated state. Therefore, from cycle to cycle, the activity of solutions and water increases, which leads to an increase in the degree of water purification.

Claims (1)

1 Reagent station, consisting of the main and consumable containers, pipelines, dispensers, hopper, characterized in that it is equipped with a distributor, activator and mixer-flocculator, while the dispenser is connected to the output of the supply tank and is installed at the inlet of the mixer-floccator, on the other the end of which there is an activator connected by a pipeline to a distributor, the mixer-flocculator is connected by a pipeline to a supply tank and installed with the possibility of changing the angle of incidence bosom and relative positioning relative to the supply capacity, the dispensers are located in the mixer-flocculator and connected by pipelines to the distributor.

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