RU6785U1 - SEWAGE TREATMENT PLANT - Google Patents

Abstract

A wastewater treatment plant, comprising a clarification chamber with a hydrocyclone and thin-layer clarifiers, an electric reactor connected to a rectifier, a filter and pipelines, characterized in that the electric reactor is located in the clarification chamber in the outlet zone of the pipeline connected to the filter and is made open.

Description

Sewage treatment plant

The utility model relates to water treatment by purification of natural, circulating and wastewater from dispersed, emulsified, colloidal mechanical impurities and dissolved substances and can be used to purify water before discharge into natural water bodies, for reuse in closed water systems of enterprises of various industries, for example, integrated water treatment systems from vehicle washing.

A known installation for cleaning contaminated liquids, containing a photocamera with soluble electrodes, connected to a rectifier and connected by pipelines with a filter and a sludge collector. The photocamera is installed obliquely at an angle of 4-11 degrees to the horizontal axis, and the electrodes are placed at an angle of 30-45 degrees to the longitudinal axis of the photocamera (Invention of the USSR No. 1641778, MKI5 CO2F1 / 463, з 04.04.88, op 04.15.81).

The disadvantages of the known installation include its lack of compactness, the presence of a large number of inlet and outlet pipelines of the photocamera, which complicate the design and replacement of its elements during operation.

The closest in technical essence and the achieved result

is an installation for wastewater treatment of a water treatment complex, comprising a lighting chamber with a hydrocyclone and thin-layer illuminators, connected by a pipeline to an electric reactor connected to

MKH6CO2F1 / 00, 1/461

to the rectifier and located in the upper part of the filter housing. (Prospectus of the International Scientific and Engineering Group INTERVIR. Water treatment complexes for wastewater treatment in car wash systems UKOSAVTO. Edition. Russia-Ukraine-Slovakia. 1995 - prototype, attached).

The placement of the electric reactor in the filter housing allows you to simplify the installation, to make it more compact by connecting connecting pipelines, but entails the following disadvantages. Stagnant zones are formed in the housing of the electroreactor and between its plates, reaching up to 40-50% of the volume of the electroreactor, which leads to increased energy consumption and, in extreme cases, the complete termination of the flow through the electroreactor. Another disadvantage of the known installation is the discharge of the entire volume of the substance deposited by the electro-reagor into the filter elements, which leads to their premature clogging.

The task underlying the utility model is to create a compact and simple installation that accelerates the cleaning process, reduces energy consumption, reduces the cost of flushing the filter and eliminates the cost of flushing the electric reactor.

The task is achieved by the fact that in the installation for wastewater treatment, containing an illumination chamber with a hydrocyclone and thin-layer illuminators, an electric reactor connected to a rectifier, a filter and pipelines, an electric reactor is placed in a clarification chamber in the exit zone of the pipeline connected to the filter, and is made uncased. Placing an electric reactor in the clarification chamber allows

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to compose and simplify the installation, to precipitate the reaction products of coagulation and flotation at the bottom of the clarification chamber together with the precipitate separated by hydrocyclone and thin-layer clarifiers, without clogging the filter. The location of the electroreactor in the exit zone from the refreshment chamber of the pipeline connected to the filter, and its execution is open, i.e. frameless without a bottom and side walls, allows the deposition process to be intensified due to the flow of water from the hydrocyclone between the plates of the electroreactor without the formation of stagnant zones, which leads to a decrease electricity and flushing costs.

The figure shows a schematic diagram of the installation.

The wastewater treatment plant comprises a clarification chamber 1 with a hydrocyclone 2, thin-layer clarifiers 3 and a caseless electric reactor 4 made of a set of aluminum and steel plates and placed in the outlet zone of the connecting pipe 5 with a filter 6. The pipe 7 for supplying purified water is connected to the hydrocyclone 2, and the pipe 8 of the outlet of purified water - with a filter 6. The electric reactor 4 is connected to the rectifier 9 of the current source.

Installation works as follows. Purified water is supplied through pipeline 7 to hydrocyclone 2 and includes a rectifier 9 for supplying current to electroreactor 4. Mechanical impurities emitted by hydrocyclone 2 are deposited on the bottom of clarification chamber 1, and smaller fractions and coagulation reaction products from electroreactor 4 passing through thin-layer clarifiers 3 are also deposited on them, accumulate and sink to the bottom of the clarification chamber 1. The emitted flotation products

from the electric reactor 4 float up in the form of foam and gradually settle down. Through the connecting pipe 5, water with a minimum content of impurities enters the filter 6, contributing to the discharge of the filter 6. The sediment accumulated at the bottom of the clarification chamber 1 is periodically drained.

Claims (1)

A wastewater treatment plant, comprising a clarification chamber with a hydrocyclone and thin-layer clarifiers, an electric reactor connected to a rectifier, a filter and pipelines, characterized in that the electric reactor is located in the clarification chamber in the outlet zone of the pipeline connected to the filter and is made open.