SU1741856A1 - Liquid clarifier - Google Patents

Abstract

The invention relates to devices for the purification of various contaminated liquids and can be used for the purification of contaminated liquids in various sectors of the national economy, including public utilities. The aim of the invention is to increase the cleaning efficiency and productivity of the apparatus. The liquid clarifier is equipped with a jet pump installed on the intake pipe. Hydraulic cyclone sludge pipes located on the clarifier outlet pipes and reagent dispenser outlets are connected to the pump suction chamber. The outlet cylindro conical tips of even sedimentation cones and internal odd sedimentation cones in the upper part have fixed guide vanes on their outer surface, which are inclined with respect to the vertical axis. In order to increase the cleaning efficiency and productivity of the apparatus, a deaf reverse cone is coaxially placed in the first precipitation cone, the volume of which does not exceed 1/3 of the volume of the first precipitation cone. 4 il.

Description

The invention relates to devices for the purification of various contaminated liquids and can be used for the purification of contaminated liquids in various industries of the national economy, including public utility enterprises.

Apparatuses for cleaning contaminated liquids are known, including sedimentation elements made in the form of concentrically arranged upside down cones, a drain chute, loading and unloading devices.

The disadvantages of such devices are their low productivity and low lightening effect.

The aim of the invention is to increase the cleaning efficiency and productivity of the clarifier.

The goal is achieved by those. that in the apparatus in the first sedimentation cone there is additionally coaxially placed a blind return cone, the volume of which does not exceed 1/3 of the volume of the first sedimentation cone, the flow of clarified liquid into the apparatus is produced by a jet pump, to the suction nozzles of which hydrocyclones are connected and the outlet reagent dispenser nozzles, and cylindrical cone nozzles of even sedimentation cones and internal odd

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in the upper part, the sedimentation cones have guide vanes to create a directional movement of the fluid being cleaned in the volume of the whole apparatus.

FIG. 1 shows a liquid clarifier, a longitudinal section; in fig. 2 - the same, cross section; in fig. 3 - exhaust nozzles, longitudinal section; in fig. 4 - the same cross section.

The liquid clarifier consists of a jet pump, which is a combination of a suction chamber 1 and a diffuser 2, sedimentation cones 3-7, hydrocyclones 8, a blind return cone 9, discharge pipes 10, troughs 11, exhaust conical-cylindrical nozzles 12 having guides the blades 13 and the cone 14, the tubes 15, the guide blades 16 and the dispenser 17 of the reagents. The suction chamber 1 of the jet pump is connected to the inlet pipe 18, the sludge outlet pipe 19 of the hydrocyclone 8 and the outlet pipe 20 of the reagent dispenser 17. The hydrocyclone 8 has a sludge collector 21. Inner odd sedimentation cones 3 and 5 have guide vanes 16 on their outer surface, which are inclined relative to the vertical axis. In the lower part of the even-numbered sedimentation cones 4 and 6, tubes 15 are installed, ensuring the discharge of sludge from the even cones directly into the lower part of the odd cones 5 and 7,

The liquid clarifier works as follows.

The liquid to be cleaned with a dosed amount of reagents (coagulants, flocculants, etc.) and the smallest fraction of the sludge circulating in the clarifier, controlled by a hydro cyclone 8, is fed into the suction chamber 1 of the jet pump and through its diffuser 2 is directed to the first sedimentary ( sedimentation cone 3, where from it, as a result of the change, the direction of its movement separates the very large fraction of mechanical impurities, which is removed from the apparatus through the sludge outlet outlet 10, and the liquid, continuing to move, livaets through the cone region 3, again changes the direction of movement to the opposite (downwards), and interacting with the guide vanes 16, acquires a rotational motion within second sedimentation cone A.

Thus, the first sedimentation cone 3 serves as the second stage of the displacement chamber of the main reagents and the sludge recirculating in the clarifier. Cone 9 also contributes to uniform

the distribution of the initial stream of the purified liquid inside the cone 3 and the formation of a filtering layer of suspended sediment formed in the clarifier as a result of the hydrolysis of coagulants and their interaction with flocculants.

In the second sedimentation cone 4, the liquid has a directional rotational movement, which increases its passage through the corresponding section of the clarifier, and therefore, due to the improved mixing, a more complete cleaning of wide class contaminants, dispersion, up to colloidal

5 sizes. Moving along the central nozzle of the outlet cylindro conical nozzle 12, the liquid flows into the next odd (third) sedimentary cone 5.

With this, the fluid flow passes through the conical part of the nozzle 12 and changes its direction of motion to the opposite (bottom to top). Using blades 13, nozzle 12, the liquid acquires rotational movement in the volume of the third cone 5. The sludge deposited in the volume of the second precipitation cone 4 through the slurry pipe 15 enters the lower zone of the odd cone 5, where it is mixed with

0 slime formed in the volume of the third cone 5 and is discharged from it through the outlet nozzle 10.

Thus, in odd cones, counting from the point of entry of the liquid being cleaned

5, the clarifier rotating the liquid moves from bottom to top, which contributes to the separation of mechanical contaminants from it, collecting them on the walls of the cones and removing contaminants from the apparatus through the system of patents. 10. Overflowing through the upper edge of the odd cones, the liquid acquires a rotational motion again in the system of blades 16 and moving from top to bottom, contributing to the compaction of sediment and flow

5 it into odd cones through a pipe system 15.

The liquid clarified in the conical sections of the clarifier is collected in an annular groove 11, from where it continuously enters

0, the hydrocyclone system 8, where it is finally freed from contamination, which is continuously sucked from the sludge collector 21 of the hydrocyclone 8 into the suction chamber 1 of the jet pump, where it is mixed with the liquid entering the purification plant, functions as sludge flaking centers. The cleaning of the liquid in the clarifier occurs in a turbulent mode, which promotes the separation of contaminants from the volume of the liquid being cleaned and from the apparatus itself, excluding clogging of the system of overflow and discharge pipes by contaminants. In the last sedimentation cone, the fluid flow acquires the laminar regime, which contributes to a more complete discharge of contaminants from the fluid flow. The final cleaning of the fluid is achieved in a turbulent mode in the system of hydrocyclones 8 The introduction of chemical reagents from the dispensers 17 through its outlet nozzles 20 into the suction chamber 1 of the jet pump provides an additional degree of purification of the liquid and high efficiency of the apparatus.

Claims (1)

Invention Formula A liquid clarifier containing sedimentation chambers, made in the form of cones concentrically located with the base upwards, even of which have exhaust cylinders. cages placed in the upper part of the drainage chute, lid, inlet pipe and outlet, characterized in that. that, in order to increase the cleaning efficiency and the clarifier productivity, it is equipped with a return cone placed coaxially in the first cone, the volume of which does not exceed 1/3 of the first cone volume, jet pump installed on the inlet pipe, located on the outlet nozzle by a cyclone and a reagent dispenser connected correspondingly, a sludge outlet pipe and an outlet pipe with the suction chamber of the jet pump, and guide vanes fixed with an inclination relative to the vertical axis on the outer surface awns odd cones in their upper part and on the exhaust nozzles tsilyndrokonicheskih even cones. 2 15 I TO Fia 3 1741856 FIG L