SU1035004A1 - Aerator - Google Patents

Abstract

-AERATOR, comprising a casing, a fan with an engine installed in it, a drive shaft with a propeller and an air supply pipe aligned with it, attached to the outlet end of the pipe with an expanding nozzle, and a C By the fact that, with the aim of increasing efficiency, it is used. Neither the aerator, due to the intensification of air oxygen dissolution in the treated water, is equipped with an air-distribution cone with perforated nozzles installed at the outlet end of the pipe with the possibility of rotation, with the latter being bent in a logarithmic U spiral. (L

Description

The invention relates to devices for mixing and aerating liquids and can be used for treating liquid livestock waste in channels, storages, pools.

The aerator is known, having a housing on which a driving motor is mounted, and coaxially with it: a fixed pipe with openings in the upper part for supplying air and a protective cover. Inside the pipe there is a drive shaft with a propeller, and an expanding nozzle with screw guides fixed along the nozzle 1} forming inside this nozzle is installed.

However, in the presence of increased organic matter in the treated liquid, as well as dissolved and undissolved impurities (which are livestock drains with a moisture content of 92% or more), the amount of air drawn in is insufficient. In addition, it is almost impossible to control the amount of air supplied, i.e. (aerate with such intensity that 1-Zmg / dissolved oxygen is contained in the liquid, and also to provide the necessary degree of its dispersion.

The purpose of the invention is to increase the efficiency of using the aerator due to the intensification of the dissolution of air oxygen in the treated water.

This goal is achieved by the fact that in the aerator containing an air supply pipe, a shaft with a propeller and an expanding nozzle with screw guides mounted on the outlet end of the pipe, a fixed fan wheel mounted on the same drive shaft is mounted the propeller and air distribution cone with perforated nozzles are hermetically connected to the pipe and made rotatable, and the perforated nozzles are bent in a logarithmic direction.

FIG. 1 shows the proposed aerator; in fig. 2 - air distribution cone, view from the side of the screw.

A drive motor 2 is mounted on the body 1 of the aerator at an angle to the horizontal. The fan wheel 4 is rigidly fixed to the engine on the drive shaft 3, the fan casing 5 is connected to the pipe b and has air holes 7 on the side of the case. At the end, there is an air-distribution cone 8 with perforated nozzles 9, through which air is supplied to the propeller 10. The propeller and air distribution: a 5-cone cone is installed inside the expanding nozzle 11. The louver 12. the nozzles are placed in such a way that when the air is released, the torque required for rotation is created due to the reaction forces. The cones of the cone 8. The pipes 9 themselves can be installed radially or at an angle to the cone 8 and made curved in the shape of a logarithmic spiral.

The aerator works as follows.

As the propeller 10 rotates, fluid is pumped through the expanding nozzles 11 into the interior of the structure in which the aerator is installed. At the same time, the fan wheel 4 is driven into rotation, which sucks air through the louvers 12 and holes 7 located in the aerator case 1 and forces it through the pipe b to the air distribution cone 8. The air passing through the holes 13 is sprayed in the form of fine bubbles and is supplied to the propeller 10. The propeller 10 in turn mixes the incoming liquid with air and thereby additionally increases the degree of displacement of the supplied air. The amount of air is controlled by changing the position of the louver 12.

When air is ejected into the aerated liquid from the pipes 9, due to their proper installation and opening of the holes 13, a reaction force is created which causes the air distribution cone to rotate. Fibrous or other inclusions stuck to the pipes 9, when the cone 8 rotates, they spontaneously discharge. This also contributes to the curvilinear form in the form of a logariflda spiral. The rotation of the cone 8 improves the air distribution in the aerated liquid and depends on the amount of air supplied and the frequency of rotation of the propeller 10. The direction of rotation of the cone 8 varies with the location of the nozzles 9.

The proposed aerator, due to the additional air supply, its uniform distribution and dispersion, allows an increase in mass transfer capacity by a factor of 2–3 with insignificant power consumption (up to 10%) for the fan drive compared with the opposed aerator.

The use of aerators makes it possible to increase the specific load on each of them, improve the quality and reduce the processing time of liquid livestock waste by increasing the rate of oxygen dissolution in the 0-2 mg / l saturation range.

Claims (1)

AERATOR, comprising a housing, a fan with an engine installed in it, a drive shaft with a propeller and an air supply pipe arranged coaxially with it, an expanding nozzle attached to the output end of the pipe, such as that, in order to increase the efficiency of use of the aerator due to the intensification of dissolution of oxygen in the treated water, it is equipped with an air distribution cone with perforated nozzles mounted at the outlet end of the pipe, the latter being made of bent along a logarithmic spiral. P