SU1615172A1 - Aerator - Google Patents

Abstract

The invention relates to devices for the biological treatment of wastewater and can be used in the microbiological, hydrolysis and wood chemical industry. The aim of the invention is to improve the aeration of waste water. The aerator, mainly for biological wastewater treatment plants, contains an ejector consisting of a vertical cylindrical housing 1 with nozzles 2 and 3 for supplying liquid and gas and a mixing chamber 4. A tube 5 is installed along the axis of the housing to eject gas into the mixing chamber. The aerator is provided with at least one device for mixing the gas with the liquid and uniformly distributing the gas-liquid mixture in the vessel of the apparatus. The device consists of a cylindrical housing 6 attached to the conical part of the ejector body 1 so that the mixing chamber 4 of the ejector is located in the upper part of the device body 6 and the Segner wheel 7 placed outside it. The working cavity of the wheel 7 is communicated with the cavity of the body 6 by holes 8 Inside the wheel cavity, an insert 9 in the form of a spiral is installed to increase the time that the gas contacts the liquid. 3 il.

Description

liquid and gas and mixing chamber 4. A tube 5 is installed along the axis of the casing to eject gas into the mixing chamber. The aerator is provided with at least one device for mixing the gas with the liquid and uniformly distributing the gas-liquid mixture in the vessel of the apparatus. The device - c jTBO consists of a cylindrical box - 6, attached to the conical body 1 of the ejector so that

A measure of mixing 4 of the ejector is located in the upper part of the housing 6 of the device, and Cnegner wheels 7 placed outside it. The working cavity of the wheel 7 communicates with the cavity of the housing 6 through the holes 8. Insert 9 in the form of a spiral is installed inside the wheel cavity to increase the time of gas contact with the liquid . 3 il.

The invention relates to a device for the biological treatment of urgent waters and can be used in the microbiological, hydrolytic forestry industry,

The aim of the invention is to improve the aeration of waste water.

Fig. 1 schematically depicts an aggregator, general view | figure 2 - CE-A-A in figure 1, fig. 3 node 11 in FIG.

The aerator, mainly for the biological purification of spacal water, contains an ejector that consists of a vertical cylinder of the rhinestone building 1 with nozzles 2: and 3 for supplying liquid and gas and a cam (le 4). A pipe 5 for ejecting gas into the mixing chamber has been installed. The aerator is equipped with at least one device for mixing gas with liquid and uniformly distributing the gas-liquid mixture in the vessel of the apparatus. The device consists of a cylindrical housing 6 attached to a conical parts the ejector body 1 ejector tic that chamber 4 mix ejector R. located in the upper part of the housing 6 of the device, and CEGNER wheel 7, located outside around it 7. The working cavity of CEGNER wheel 7 is connected to the cavity of the body 6 through holes 8. Inside the wheel cavity, insert 9 is installed in the form of a spiral to increase the time of gas contacting with liquid. On the side surface of the wheel there are tangentially positioned nozzles 10 with nozzles 11. When the aerator is supplied with several devices 12 and 13 placed along the height of the tank

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five

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five

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five

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apparatus, coaxially to pipe 5, pipes 14 and 15 are installed for ejecting gas into the mixing chambers 16 and 17 of each device.

Aerator pa6qTaeT as follows.

The fluid enters through the nozzle 2, located tangentially to the cylindrical part of the housing 1, moves along a helical spiral along the inner wall of the housing 1 and is directed to the chamber 4, where it mixes with air, which enters under pressure through the nozzle 3 through the pipe 5. The resulting gas-liquid through the openings 8 in the device housing 6, when combined with the openings in the Segner wheel 7, the screw labyrinth formed by the insert 9i is directed to the nozzles 10, from where it is sprayed through the nozzles 11 y Due to the reactive outflow of the gas-liquid suspension, the Segner wheel is rotated. In the case of supplying the aerator with several devices 12 and 13 installed at the height of the capacity of the apparatus, the wheels arranged one above the other rotate in opposite directions and thus evenly around the entire circumference, which the nozzles 11 describe, saturate the medium with the finely dispersed air.

When the holes 8 in the device housing 6 are aligned with the wheel holes, the gas-liquid suspension rushes at a high speed through a spiral maze. Occurs suspension of the suspension, cavitation of air bubbles.

These phenomena develop in it to a greater degree, the higher the pressure

supply air. When,

when the openings of the device body 6 overlap with the wheel wall, the motor headset occurs, and the liquid rushes to another hole, which is currently aligned with the hole in the device body 6 when rotating. Thus, the gas-liquid

on the slurry in the device, it drastically changes its direction of flow, which leads to cavitation, turbulence, and water hammer. As a result, the device operates in a pulsating mode evenly, aerating the surrounding volume of liquid with fine air bubbles. In this construction, a secondary pulsation also takes place, contributing to the dispersion of air, which occurs due to the liquid particles exiting the liquid-gas suspension from the nozzle. When the holes 3 in the device housing 6 are aligned with the wheel holes, an overpressure is also created due to the intake of a large portion of the suspension, which contributes to a better dissolution of air in the liquid.

The design of the aerator makes it possible to improve the aeration of waste water due to the finer dispersion of air, its even distribution in the liquid, and an increase in the saturation of the waste water with dissolved oxygen. The aerator does not require large capital expenditures on its manufacture.

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It allows aeration of large volumes of liquid to the desired depth. This is especially relevant for aeration tanks aeration processes, in which activated sludge is collected mainly in the lower part, since the aerator allows maintaining active sludge in a suspended state.

Claims (1)

Invention Formula An aerator, mainly for biological wastewater treatment plants, containing an ejector consisting of a vertical cylindrical body with nozzles for supplying liquid and gas a, a pipe for ejecting gas installed along the axis of the body, and a mixing chamber, about m - that, in order to improve the aeration of waste water, the aerator is equipped with at least one device for mixing gas with a liquid and uniformly distributing the gas-liquid mixture in the vessel of the apparatus consisting of a cylindrical cone A bar attached to the conical part of the ejector body so that the mixing chamber of the ejector is located in the upper part of the body of the device and the Segner wheel placed outside it, the working cavity of which is communicated with the body cavity by means of holes, while coils to increase gas contact time with liquid. U2.2 7.8