SU1662948A1 - Installation for sewage treatment - Google Patents

Abstract

The invention relates to the treatment of industrial wastewater and can be used in the chemical, petrochemical, engineering and other industries. The purpose of the invention is to increase plant productivity and simplify the design. The wastewater treatment plant comprises a purification unit made in the form of a tank divided by partitions into communicating neutralization, neutralization, clarification and reagents chambers. In the treatment and neutralization chambers, vertical tubes are installed coaxially one into the other, forming reaction zones. The reagent chambers are provided with vertical pipes connected by ejectors with a source of compressed air and central pipes of the neutralization and neutralization chambers. The installation allows the introduction of reagents in the form of an aerosol and carrying out a neutralization and neutralization reaction in the turbulent mode, followed by clarification in a thin-layer shelf unit. 4 il.

Description

The invention relates to the treatment of industrial wastewater and can be used in the chemical, petrochemical, engineering, metallurgical and other industries.

The purpose of the invention is to increase plant productivity and simplify the design.

FIG. 1 shows the installation, plan view; in fig. 2 - section A - A in FIG. one; in fig. 3 - section B - B in FIG. one; in fig. 4 - section B - B in FIG. one.

The wastewater treatment plant contains a reservoir 1, divided by partitions 2, forming neutralization chambers 3, neutralization 4, clarification 5. purified waste 6, for reagents 7,8,9.

Vertical pipes 10, 11, 12 that are coaxially placed one into another are installed in the neutralization and neutralization chambers 3.

The central pipes 10 are plugged at the ends and perforated; in the lower part, the middle pipes 11 are open at the ends, the external pipes 12 are provided with covers 13 with a hole at the top for air to escape.

The tank 1 is provided with a feed pipe 14 to the chamber 3 and a discharge pipe 15.

Chambers 3, 4, 5 have overflow pipes 16, 17, 18

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In the reagent chambers 7, 8 and 9, vertical pipes 19 are installed for supplying the aerosol state of the reagents by means of ejectors 20, 21, 22 installed on pipelines connected to a source of compressed air and equipped with solenoid valves 23, 24, 25.

In the clarification chamber 5 a thin-layer shelving module 26 of a screw type is placed between the central supply pipe 27 with a reflective shield in the lower part and the outer pipe 28, which is an open-bottom cap.

The perforated tube 10 of the chamber 3 is connected by pipes 29 and 30 to the ejectors 20 and 21, respectively.

In the neutralization and neutralization 4 cells, pH sensors 31, 32, 33 and 34 are installed in the automatic reagent supply control system.

The perforated tube 10 of the chamber 4 is connected by a pipeline 35 to an ejector 22, which is connected to the tube 19 of the chamber for reagents 9.

The deposited sediment in the chamber of clarification 5 is periodically or continuously discharged through a vertical pipeline 36 by means of an ejector 37, which has a discharge pipe 38 and a pipeline for supplying compressed air with a solenoid valve 39.

The installation works as follows.

The wastewater through the pipeline 14 flows tangentially into the reaction zone located in the cavity of the pipe 11 in the decontamination chamber 3.

In the same zone, a vertical perforated tube 10 is simultaneously supplied with the required reagents in aerosol form, coming through pipelines 29 and 30. The reagents are transported using compressed air by ejectors 20 and 21, each of which is connected to a corresponding vertical pipe 19 of reagent chambers 7 or 8.

When applying the reagent in an aerosol state and vigorous stirring with compressed air, the neutralization process proceeds in a turbulent mode for 1.5–2 min.

Next, the neutralized effluents enter the main mass through the lower outlet of the pipe 11, partially through its upper outlet through the channel into the control zone bounded by the walls of the chamber 3 and the pipe 12.

In the control zone, in the lower part, a sensor 31 of a pH meter of the automatic control system for the supply of reagents is installed.

In the upper part of the zone there is an electrode sensor 32.

The signal from the sensor 31 regulates the optimum conditions for the reaction to occur.

The signal of sensor 32 controls the content of residual hexavalent chromium or another element in the liquid.

Then the effluent through the pipe 16 enters the reaction zone located in the cavity of the pipe 11 of the neutralization chamber 4.

In the same zone, a vertical perforated tube 10 is supplied with the required reagent in aerosol form, transported

5 by ejector 22 through conduit 35. Ejector 22 is connected to vertical pipe 19 of the reagent chamber 9.

Neutralized effluents flow through the lower outlet of the pipe 11 and partially through

0 the upper exit through the channel in the control area, bounded by the walls of the chamber 4 and the pipe 12.

In the control zone, in the lower part, a sensor 33 of the pH meter of the automatic reagent supply control system is installed, and in the upper part, a sensor 34 of the pH meter (control) is installed.

According to the indications of the respective sensors 31 and 32 of the control zone of the chamber 3 and

0 sensors 33 of chamber 4 open and close solenoid valves 23, 24, 25 for fresh air supply

The neutralized drains through the nozzle 17 enter the central supplying chamber 27 of the brightening chamber 5, from where they enter the settling zone. In the settling zone, the effluent passes through the thin-layer shelf module 26 of the screw type and is lightened.

The clarified drains from chamber 5 through pipe 18 enter the chamber of treated effluents 6, from where they are transported for reuse or to the sewage system through pipeline 15 1.

5 The precipitated sediment in the thin-type screw-type shelf module 26 slides along the helical shelves into the lower part of the settling zone, from which it is periodically or continuously withdrawn along the vertical conduit 36 by means of the ejector 37.

The ejector 37 has a discharge pipe 38 and a compressed air supply pipe with a solenoid valve 39.

The opening or closing of the electromagnetically controlled valve 39, which controls the air supply, is performed by the time transmitter.

The proposed installation ensures the stability of the neutralization, neutralization and clarification processes, simplifying the automation process, which is reduced

to automatic air supply, carried out by an adjustable valve of ordinary use and control and measuring sensors, combining several technological processes - neutralization, neutralization, clarification, elimination of fully chemical resistant and Lined fittings, pneumatic systems of valve control and, accordingly, elimination of use air, improving the quality (dried purified), reducing the size of the installation by more than 15 times with an increase in productivity of 1.5-2 times, with the shortening of the need for the pad treatment facilities by 2.5-3 times, the possibility of processing hundred by sorts of contamination with sludge sediment to obtain realizable or ./- sc products. Formula and s with G otehnich

vCTa.lOBKC ON PLASTICS OF WASTE SOD,

mainly electroplating and chemical plants, containing a cleaning unit, ejectors, and supply and discharge pipelines, characterized in that, in order to increase the productivity of the installation and simplify the design,

cleaning is made in the form of a tank divided by partitions into intercommunicating chambers of neutralization, neutralization, clarification with a thin-layer screw-type shelf module

0 reagents, the installation is supplied with a source of compressed air, vertical pipes coaxially installed one inside the other in the decontamination and neutralization chambers, of which three are made 5 5 the reagent chambers are equipped with vertical pipes connected via ejectors to a source of compressed air and central pipes of the neutralization and neutralization chambers.

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Claims (1)

A plant for wastewater treatment, mainly galvanic and chemical industries, containing a purification unit, ejectors, and inlet and outlet pipelines, characterized in that. that, in order to increase the productivity of the installation and simplify the design, the cleaning unit is made in the form of a tank divided by partitions into neutralization, neutralization, clarification chambers * 'connected to each other with a screw-type thin-layer shelf module and for reagents, the installation is equipped with a compressed air source, vertical pipes coaxially mounted one in the other in the neutralization and neutralization chambers. the central one is muffled from the ends and perforated in the lower part, the middle one is with open ends, and the outer one is equipped with a lid with a hole, while the reagent chambers are equipped with vertical pipes connected by ejectors to a source of compressed air and the central pipes of the neutralization and neutralization chambers.