SU1127847A1 - Apparatus for cleaning liquid - Google Patents

Abstract

A CLEANING EQUIPMENT DEVICE, comprising a housing with a receiving and flotation chambers, an electrocoagulator, a cylindrical chamber with a conical bottom and a filter, characterized in that in order to improve the quality of cleaning and increase the interregeneration period of the filter operation, the central tube and the package of the inclined plates, the filter is placed in the cylinder, the upper plate of the package is connected to the lower end, to the cylinder, and the upper end to the central tube to form a chamber with boron purified liquid. W to 00 4; &

Description

The invention relates to devices for the flotation treatment of wastewater and can be used in the nave processing, petrochemical engineering and other fields, where deep treatment of wastewater from petroleum, suspended and colloidal substances is necessary. A device for flotation sewage treatment is known, comprising a housing with a receiving and flotation chambers, a soothing grate, an electrocoagulator, a mechanism for scooping foam, and a foam collector Co. However, this device is not characterized by a high efficiency of wastewater treatment. The closest to the invention to the technical essence and the achieved result is a device for cleaning fluid, comprising a housing with a receiving and flotation cells, an electrocoagulator, a cylindrical chamber with a conical bottom and a filter L21. A disadvantage of the known device is the rapid accumulation of filter pores, as well as insufficiently deep treatment of wastewater. The purpose of the invention is to improve the quality of cleaning and increase the interval between the generation periods of the filter operation. This goal is achieved by the fact that a device for cleaning a liquid, comprising a housing with a receiving and flotation cells, an electrocoagulator, a cylindrical chamber with a conical bottom and a filter, is provided with a cylinder with a central tube and a package of inclined plates located inside the cylindrical chamber. The filter is placed in the cylinder, the upper plate of the bag is connected to the cylinder by the lower end, and the upper end to the central tube with the formation of the chamber for collecting the purified liquid. The drawing shows the proposed device, a longitudinal section. The device for cleaning liquids consists of a housing 1, a receiving chamber 2, separated by a soothing grill 3 with openings 4, on which an electrode system 5 (electrocoagulant) is located, a flotation chamber 6 with a foam collector 7. and a device 8 for blowing foam. In the flotation cell there is a cylindrical chamber 9 with a conical bottom, equipped with a discharge pipe 10 and a drain pipe 11 that clears the cleaned liquid. Along the perimeter in the upper part of the cylindrical chamber are holes 12 for the passage of fluid from the flotation cell. In a cylindrical chamber with a conical bottom, a cylinder 13 is installed coaxially with a filter 14 placed on a perforated grid 15. A package of inclined plates 16 is also installed in a cylindrical chamber with a conical bottom, the upper plate 17 of which is in its lower part connected to the cylinder, and its upper part is with a central pipe 18 spout. The cylinder, the upper plate of the bag and the filter form the chamber 19 for collecting the purified liquid. The device is equipped with a fitting 20 for supplying the liquid being cleaned, a fitting 21 for feeding reagents, a fitting 22 for withdrawing the condensate condensate, supports 23 for installing the device on the foundation. The device works as follows. - The electrode system 5 is powered by a DC source. The processed fluid is fed through the nozzle 20 into the receiving chamber 2. The passage through the apertures 4 of the stilling grid 3 stabilized flow of the treated liquid enters the interelectrode space of the electrode system 5, where it is subjected to electrical treatment. At the same time, the dissolution of the anodes occurs with the formation of hydroxides (oxides) of metals and the evolution of gas bubbles. Then the liquid enters the flotation cell 6, where gas bubbles and suspended substances adhere to them, including flakes of metal hydroxides with sorbed contaminants, rise together with the liquid flow. Gas bubbles on the surface of liquids form a layer of foam, which is blown off by the device 8 to blow the foam into the sump 7, where it is quenched with lime methods (for example, water irrigation or treatment, steam). The formation of the foam condensate is discharged through the nozzle 22 to the outside of the device. The liquid purified in the process of electrophospation through the holes 12 in the cylindrical chamber 9 and the free space formed by the walls of the chamber 9 and the cylinder 13 enters the zone where the stack of inclined plates 16 is placed. Pollution in the form of suspended substances penetrates with the liquid being cleaned through the holes 12, deposited on the surface of the plates. After passing the plates through the central tube, the clarified liquid flows into the cylinder where it is cleaned on filter 14. Filtering material, depending on the type and quality of treatment (liquid, may be non-synthetic materials, for example syprone, polystyrene foam or other known materials - wood fiber chips , quartz sand, etc., the effect of cleaning the liquid from oil products, suspended substances and other contaminants; after the filters can reach 99-100%, the purified liquid after l filters through a perforated grid 15. It enters the collection chamber 19, from where it is drained out of the device through pipe 10, Thanks to the multi-stage cleaning of the fluid before its final purification by filtration, the filtering material is slightly contaminated and can serve for a long time before its regeneration. parts of the conical bottom of the cylinder 9 are removed from the device through the pipe 11; Intense foaming on the surface of the liquid mirror, and hence the formation of a high and stable layer Foam is provided by the narrowing of the flotation chamber 6 in the upper part, significantly reducing the water surface. For improving the flotation process or to give the treated liquid a neutral reaction; through the nozzles 21, reagents are supplied to the device. Through the same fittings, it is also possible to introduce gases or air saturated with contaminated liquid into the device in order to increase the number of gas bubbles in the flotation cell, i.e., to improve the flotation process, in the absence of metal for the electrocoagulator electrode plates, pressure reagent flotation, for which air-saturated and reagent-treated waste liquid is supplied to fitting 20. Flushing (regeneration) of the filter is carried out by reverse flow of clean fluid, t, e, through pipe 10, the contaminated liquid (filtrate) during washing is poured through the side of the cylinder 13 into the flotation cell, and also flows through the pipe 18 into the stack of inclined plates 16, Such washing contributes to the cleaning of the pencil broom tray, the interelectrode space of the electrocoagulator 5 of the plates 16. The proposed device for cleaning liquids allows to achieve high quality cleaning of liquids in one device, to increase the period of interregeneration onnog .o filter operation period, significantly reduce the size and simplify the installation process of its operation.

Claims (1)

A LIQUID CLEANING DEVICE comprising a housing with a receiving and flotation chambers, an electrocoagulator, a cylindrical chamber with a conical bottom and a filter, characterized in that, in order to improve the quality of cleaning and increase the inter-regeneration period of the filter, it is equipped with a cylinder with a central pipe located inside the cylindrical chamber and a package of inclined plates, the filter is placed in the cylinder, the upper plate of the package is connected with the lower end to the cylinder, and the upper - to the central pipe with the formation of a chamber for collecting gap of the liquid. SU „„ 1127847> '4 l 1 1127847