SU1745697A1 - Pneumatic aerator - Google Patents

Abstract

Use: saturation of wastewater with air oxygen during biochemical treatment. SUMMARY OF THE INVENTION: The pneumatic aerator comprises an air duct of a hollow impeller rotating on it. The impeller is located in the narrow part of the flow former, made in the form of a hyperopolyoid. The angle between the impeller blade and the tangent to the flow driver in the expanding part is 90 ± 5 °. On the upper surface of the impeller blades are slotted slots. Hollow blades are provided with plugs. 1 hp ff, 4 ill.

Description

The invention relates to devices for aerating liquids and can be used to saturate wastewater with oxygen from the air during their biochemical treatment.

The purpose of the invention is to increase the efficiency and efficiency of aeration.

The goal is achieved by the fact that in order to increase the efficiency and efficiency of aeration, the flow former is made as a single-cavity hyperboloid, the aeration element is installed in a narrow part of the flow former with the possibility of rotation on the duct and is made as a hollow impeller with blades having slotted slots on the upper the surface and forming with a tangent to the flow former in the expanding part an angle of 90 ± 5 °.

FIG. 1 is a schematic diagram of a pneumo-aerator with an upper air supply; fig 2 - connection

blades to the sleeve; in fig. 3 - pneumatic aerator with a bottom connection to the main duct; in fig. 4 - pneumo-aerator, plan.

The pneumatic aerator contains a flow former 1 in the form of a single-cavity hyperboloid with an inlet part 2 and an outlet part 3. Not a duct 4, as on a shaft, an aeration element in the form of a freely rotating impeller, without sleeve 6, is placed without axial movement through which the hollow blades 7 communicate with the air duct 4. The latter has an end cap 8, to which the guiding device 9 is attached. Made of plates rigidly attached to the former 1, and which keeps coaxiality between the former 1, the air vodom 4 and impeller. Axial movement of the impeller is prevented by mounting the stopper 8 on one side and the restrictor 10 on the other. Blades 7 wings

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Taps installed in the narrow part of the flow former 1 form an angle with the tangent to the expanding part of the former close to the direct one (90 ± 5 °.

In the hollow blade 7 there is a tapered groove 11, into which the plug 12 is installed, and in the upper part of the blade 17 there are slit slots 13. The pneumoelectric is connected to the main duct 14 with a zone 15 of the air-air mixture created during operation.

Pneumatic aerator works as follows.

Compressed air through the duct 4, the holes 6 of the sleeve 5 enters the hollow blades 7 of the impeller and through the slit slots 13 enters the surrounding liquid. In the expansion part 3 of the flow former 1, a gas-liquid mixture is formed. Due to the difference in hydrostatic pressure in the converging part 2 and the expanding part 3, the aerated liquid rises. The influx of non-aerated liquid, caused by the movement of the aerated mixture, through the narrowing part 2 of the former 1 and directed by the apparatus 9, will act on the impeller blades 7 and bring it to Piau e. Due to the rotation of the impeller, the air leaving the blades 7 through the slit slots 13 will be cut off by the fluid, and through the tangential component of the speed of the impeller, and the direction of the blade from the axis of rotation, the aerated mixture will be thrown or the axis of rotation will create the mixture in the tank. an area larger than the exit section of the expanding part 3.

For adjustment in a small range of the amount of air supplied to one pneumatic aerator, a plug 12 can be installed in the tapered groove 11, which allows, if necessary (limited power of air blowers, etc.) to exclude 1-2 pneumatic aerator blades from the air dispersion process. This will make it possible to use the supplied air more economically in production, and in calculating the aeration system in buildings in a wider range, to vary the number of pneumatic aerators and the load on them.

In addition, the separation of air jets by making longitudinal slit slots on the blade x (i.e., the air jet is flat and each subsequent jet is displaced from the previous one) does not allow the hydrostatic pressure of the surrounding liquid to compress (narrow).

and its rejection will allow to increase the volume of the treated liquid by maintaining the fine bubble structure of the air flow. The described cycle of operation is repeated at each filing is compressed

air to the device.

Technical and economic analysis shows that the device works without additional. cost of electricity for rotation and allows you to increase the efficiency of aeration, while providing a reduction in the estimated air flow by 5-10%.

Claims (2)

1. A pneumatic aerator comprising an air duct communicating with an aoratation element placed in a flow former, characterized in that, in order to increase the efficiency and effectiveness of aeration, the flow former made in the form of a unipolar hyperboloid, the ablation element is installed in the narrow part of the flow former with the possibility of rotation on the duct and is made in the form of a hollow impeller with blades having slotted slots on the upper surface and forming an angle of 90 ± 5 ° with the tangent to the flow former in the expanding part. 2. The pioneer of claim 1, of which is the fact that the hollow blades of the impeller supplied with plugs. four