SU1446113A1 - Arrangement for treating liquids - Google Patents

Abstract

The invention relates to devices for the purification of natural and waste waters and can be used in the national household, machine building, oil refining and other industrial sectors. A device for cleaning liquids comprises a housing, a cylindrical perforated flotation chamber (FC) located along its axis, shelf blocks (PB) in the form of sections mounted over each other along the height of the FC sections, separated by a solid partition, a filter placed concentrically outside the PB. The device produces a sequential multi-step physical and chemical cleaning of liquids from suspended, colloid-like and dissolved contaminants. 2 Il ,. G

Description

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; The invention relates to devices for the purification of natural resources: wastewater can be used in the national economy for cleaning the surface of HOCTfiLix waters to the quality of technical 1ChN of filament water, as well as for cleaning industrial wastewater contaminated with petroleum products, synthetic No. -... -1and surfactants, dyes, heavy metals, suspended solids and colorants.

The aim of the invention is to define the quality of the cleaning of liquids to enhance the functionality of the device,

In the device for cleaning liquids, comprising a housing, a flotation cell along the axis of the housing, phylindrop, a collection of clarified water and shelving units, a floatation chamber is perforated along its entire height, the shelving units are located radially around the flotation cell enclosures.

In the case of the flotation cell, over the entire height, it is perforated to allow for shelving of the shelf radially around the chamber.

TaKHNi in a way appears to organize the cleaning up of the LCDS-S-J from the residual weight; Pch-- barely a flotation machine on the shelter sump

The radial placement of the polishing units around the perforated flotation cell and the coaxial location of the filter and other treatment facilities behind them allows creating a compact, multifunctional and efficient device for cleaning contaminated: materials that allow for deep cleaning of water demineralization 5 is reached

in known devices.

FIG. 1 shows a device for cleaning liquids, a longitudinal section in FIG. 2 is a section A-A in FIG. 1.

A device for cleaning liquids contains a flotation cell formed by a perforated capacity of 2, in the lower part of the flotation cell there is an electric camera 3 installed, in the upper part the flotation cell is equipped with a removable conical funnel 4 Around the flotation cell

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inclined shelf units 5 and shelf units 6, separated by a partition wall 7.

Above the shelf blocks 5, an inclined partition 8 is installed, to which a vertical partition 9 is attached coaxially with respect to the axis of the device. Partitions .8 and 9 and container 2 form a tray 10 for collecting the flotation condensate. Condensate float from Tray 1 O is removed through conduit 1,

The flotation cell 1 and the shelf units 5 and b are placed in the cylindrical body 12. In the lower part it is equipped with a bottom 13. Between the shelf blocks 5 and 6 and the body 2 a cylindrical partition 14 of the filter 5s is mounted coaxially on the perforated support plate 16, which has a bottom 3 obra; g, that collection chamber of purified zhg-dzkosti. The liquid exits from the device through the pipe 17.

In nkh-windows there is a shelving unit. 6 is bounded by an inclined parade 18, which, together with 13, forms a chamber 9 for receiving contaminated water.

An annular perforated-banking pipeline 20 is arranged in the chamber 19 around the eMitocT.4 floatation pipe, to which the sub-KjdO4eH branch pipe 21 is connected to the device for the liquid to be cleaned. - Between the inclined partition 7 and the partition 14 there is a slot 22 for bypassing the sediment.

The device is also equipped with nozzles 23 for sludge discharge. If necessary, a cylindrical partition 24 with a bottom is installed coaxially with the housing 12. Between the case and the partition the space is equipped with elements 25 for deep purification of the liquid.

The device works as follows.

The electroflocoagulator 3 is powered by a direct current source. The contaminated liquid through the pipe 21 is fed into the perforated annular pipe 20, which distributes evenly the liquid through the chamber 19 The soothed liquid in the chamber enters the clarification in the shelf units 6, where it is pre-cleaned from suspended solids. Next, the liquid through the perforated container flows for

petrochemical treatment in the flotation cell 1, where with the help of electro flotation coagulant s a large amount of finely dispersed gas bubbles and flakes of hydroxides (oxides) of metals are formed in the liquid, of which the electrode plates dissolve during electrolysis.

Gas bubbles raise the surface of the flakes of iodoxides (soured metals) of metal with sorbed sorbents on them. Gas bubbles on the surface of the liquid in the flotation cell 1 form a layer of foam that moves along the outer wall of the removable conical funnel 4 to a tray 10 designed to collect flotation condensate. Foam is removed from the tray and the device through conduit 11.

The height of the foam layer is ensured by the narrowing of the water mirror in the flotation cell of the removable cone funnel.

The liquid purified during the flotation process through the perforated body of the tank 2 of the flotation chamber 1 enters the shelf blocks 5, where it is cleaned from that part of suspended solids that have not been removed in the flotation chamber 1. After settling, the liquid passes

deep clarification in the filter 15.3. loading of the latter is carried out by any known mineral or artificial filtering materials. The cleaned liquid is collected in the collection chamber under the filter and discharged from the device through the nozzle 1 7.

If it is necessary to deep-add liquid, the device is additionally equipped with an additional partition 24 coaxially arranged around the cylindrical body 12 with the bottom and elements 25, for example, electrodialyzers or ion exchange resins, for desalting.

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The sediment sliding from the shelf units 5 along the upper plane of the inclined partition 7 moves to the slot through which it is transferred to the liquid clarification zone in the shelf blocks 6 and then together with the sediment caught by the shelf blocks 6, comes out of the device through fittings.

Thus, in the proposed device, the MHorocTjTieH-ata fzrpso-chemical cleaning is performed sequentially; suspended solids, colloidal and dissolved contaminants, which allows to achieve almost any degree of purification of the liquid and return it for repeated use.

The clarification of the liquid after flotation treatment in a thin-layer sump promotes long-term inter-regeneration operation of the filter, this allows simplifying the operation of the entire device, improving the quality of cleaning, and reducing the water consumption for flushing. If necessary, instead of electro-coagulation cleaning in the flotation cell, reagent flotation cleaning of liquids can be performed.

invention formula

A device for cleaning liquids, comprising a housing, a cylindrical flotation cell placed along its axis, a filter, a collection of clarified liquids and shelf units, characterized in that, in order to improve the quality of cleaning liquids and expand the functionality of the device, the walls of the flotation cell are perforated in height, the shelf units are arranged in the form of sections installed by one iad of the other around the flotation chamber and separated by a solid partition, while the filter is located syoentrically outside shelf blocks.

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Claims (1)

Claim A device for cleaning liquids, comprising a housing, a cylindrical flotation chamber placed along its axis, a filter, a clarified liquid collector and shelf units, characterized in that, in order to improve the quality of liquid purification and expand the functionality of the device, the walls of the flotation chamber are perforated in height, shelf units are made in the form of sections mounted one above the other around the flotation chamber and separated by a solid partition, while the filter is located concentrically outside intramural blocks. Compiled by T. Lednev Editor N. Rogulich Tehred A. Kravchuk Proofreader L. Pilipenko Order 6703/28 Circulation 854 Subscription VNIIIPI of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and printing company, Uzhhorod, st. Project, 4