SU1736959A1 - Aerator - Google Patents

Abstract

This invention relates to biochemical wastewater treatment. The aim of the invention is to increase the efficiency of wastewater aeration by increasing the duration of air contact with the treated fluid and the intensity of mixing. The aerator contains a vertical pipe 1, a screw 2, a conical bump 3, air ducts 4, a conical reflector 5 located in the upper part of the vertical pipe 1, an additional conical reflector 6 mounted concentrically above the reflector 5 and connected to it on the periphery by a cylindrical shell 7 on the side the surface of which has holes 8 and to which circulation pipes 9 are attached. The lower parts of circulation pipes 9 are located at the level of the lower edge of the vertical pipe 1. Air supplied through the air ducts 4 into the lower part of the circulation ducts 9, together with the liquid from the bottom layers, goes to the screw 2. The air-water mixture coming through the circulation ducts 9, as well as the liquid sucked by the screw 2 through the central opening of the additional conical reflector 6 and the holes 8, mutually are mixed, air bubbles are dispersed and mixed with liquid, which is further injected down the vertical pipe 1. The invention improves the efficiency of biochemical wastewater treatment d. 1 il. (L

Description

The invention relates to the biochemical treatment of wastewater, in particular, to saturate wastewater with oxygen from atmospheric air during the purification of vaeration facilities, and can be used for the treatment of domestic and industrial wastewater from various industries.

Known aerator containing a vertical pipe with a conical reflector in the upper part, a screw mounted on a vertical shaft inside the pipe in its upper part, air ducts.

The disadvantage of this device is the low efficiency of aeration, due to the short contact of air with the treated liquid, as a result of which the incoming oxygen in the air is used inefficiently, and the insufficient degree of mixing of the natural layers of the treated liquid leads to a decrease in the efficiency of aeration.

The purpose of the invention is to increase the efficiency of wastewater aeration by increasing the duration of air contact with the treated fluid and the intensity of mixing.

This goal is achieved by the fact that the aerator containing a vertical pipe with a conical reflector in the upper part, a screw mounted on a vertical shaft inside the pipe in its upper part, is provided with circulation pipes and an additional conical reflector mounted concentrically above the main one and connected to it at the periphery cylindrical shell, with circulation piping attached to the latter and the ends of them are located at the level of the lower edge of the vertical pipe, with air ducts attached to bo ttom of the circulation pipeline and formed on the side surface of the cylindrical shell openings.

The use of circulating pipelines, the lower ends of which are located at the lower edge of the vertical pipe and air ducts are attached to them, and the circulation pipes themselves are attached to the cylindrical shell, which intensifies the process of mixing of natural layers due to their forced pumping through the circulation pipelines into the vertical pipe. and in addition, the air supply to the lower part of the circulation pipelines increases the duration of air contact with the treated th

liquid, which together allows to increase the efficiency of aeration.

The use of an additional conical reflector mounted concentrically above the main cylindrical shell connected to the periphery allows the screw suction chamber to be formed, to which circulation piping is attached and through which the air supplied to the circulation piping enters the vertical pipe. An additional reflector allows two streams to be formed: one through the circulation ducts to the screw,

5 through the central hole of the additional conical reflector to the screw, which allows to intensify the mixing process and the efficiency of aeration. Holes made on the side

0, the surfaces of the cylindrical shell allow the creation in the aeration zone of a third circulatory flow through them to the screw, which ultimately improves the efficiency of aeration of wastewater.

5 waters.

Air ducts attached to the lower part of the circulation ducts and the supply of air through them allows the creation of ducts in the circulation ducts.

0 airlift effect, which intensifies the process of fluid intake from natural layers and reduces the energy cost of the screw to pump the treated fluid and, as a result, increases

5 efficiency of aeration,

The drawing shows the aerator, a longitudinal section.

The aerator contains a vertical pipe 1 with a screw 2 installed inside it at the top, a conical bump 3 installed under the pipe 1, air ducts 4, a conical reflector 5 located at the top of the pipe 1, an additional conical reflector 6 concentrically mounted above the reflector 5 and peripherally connected to it by a cylindrical shell 7, on the side surface of which there are holes 8 and to which are circulating

0 pipelines 9, the lower part of which is located at the level of the edge of the pipe 1. Air ducts 4 are attached to the lower part of the pipelines 9.

The aerator works as follows.

With a rotating screw 2, the fluid is injected down the pipe 1 to the conical chipper 3, which cuts the direction and moves upward in the volume of the aeration zone. The air supplied through the air ducts 4 to the lower part of the circulation pipelines, along with the liquid from the bottom layers, flows through the pipelines 9 to the screw 2 due to its suction effect and the air-lift effect of the air in the pipelines 9. The air mixture flowing through the circulation pipes 9, as well as the liquid sucked in by the screw 2 through the central hole of the additional conical reflector 6 and the holes 8 on the side surface of the obsechike 7 are mutually mixed, the air bubbles are dispersed and mixed with liquid which is pumped further down the pipe 1. circulation line 9 into a lower portion which is supplied with air, allows to intensify the process of stirring the layers of bottom liquid to be treated and the air to increase the duration of contact with the liquid.

The use of an aerator equipped with an additional conical reflector 6, concentrically mounted above the main reflector 5 and circumferentially connected by a cylindrical shell 7 with holes 8 and to which circulating pipelines 9 are attached, the lower ends of which are located at the lower edge of the pipe 1 and into the lower a part of which is supplied by air through the air ducts 4 makes it possible to increase the efficiency of wastewater aeration by increasing the duration of the contact of air with

Claims (1)

fluid, the degree of mixing of aeration of bottom layers of the treated liquid. The proposed aerator design allows organizing in the aeration zone three independent circulation fluid flows to the screw, which mixes them with the air. Invention Formula An aerator containing a vertical pipe with a conical reflector in the upper part, a screw mounted on a vertical shaft inside a vertical pipe in its upper part, as well as air ducts, in order to increase the efficiency of wastewater aeration by increasing the duration of air contact with the treated fluid and mixing intensity, it provided with circulation pipes, a conical reflector installed concentrically above the conical reflector in the upper part of the vertical pipe, and a cylindrical shell connecting along the periphery the conical reflectors with each other, while the circulation pipelines are attached to the cylindrical shell and their ends are located at the bottom edge a vertical pipe, air ducts are connected to the lower parts of the circulation pipelines, and holes are made on the lateral surface of the cylindrical shell.