SU1555304A1 - Device for aeration of liquid - Google Patents

Abstract

The invention relates to devices for aerating liquids in biological wastewater treatment, as well as devices for saturating liquids with atmospheric oxygen and technical oxygen for water treatment, for treating drinking, industrial and household wastewater with ozone. The aim of the invention is to intensify the process of mixing gas with water and to increase the efficiency of gas use. The gas through the pipeline is fed through the holes in the disk 1 of the medium bubble aerator. The wastewater after mechanical cleaning through conduit 4 through the openings 13 enters the pair of pipes 11 and leaves as flat jets through the slit slots 12 in the pipes. Slotted slots 12 are made on one side of the pipe 11 along the lateral forming parallel to the surface of the disk. Under the action of the reactive forces created by the liquid jets flowing out of the gaps, the tube wheel 10 begins to rotate. The grids rotating together with the pipes 11 in the frames cut off the gas bubbles from the openings of the disk 1 before forming the detachable size of the bubble, resulting in small diameter bubbles. The flat jets emerging from the slots of the pipes 11 rotate with the wheel 10 and perform additional crushing of gas bubbles and circulation dispersion of the dispersion. The invention allows to increase the efficiency of gas use, as well as to reduce the energy consumption for conducting the aeration process. 4 il.

Description

tubes 11, rotate together with wheel 10 and carry out additional crushing of gas bubbles and circulation dispersion of the dispersion.

The invention allows to increase the efficiency of gas use, as well as to reduce the energy consumption for conducting the aeration process. 4 il.

The invention relates to devices for aerating a liquid in biological treatment of wastewater, as well as devices for saturating liquids with atmospheric oxygen and technical oxygen for water treatment, for treating drinking, industrial and domestic wastewater with ozone.

 The purpose of the invention is to intensify the process of mixing gas with water and increase the efficiency of gas use.

FIG. 1 shows a device for aerating a liquid, longitudinal section; in fig. 2 - the same, top view; in FIG. 3, node 1 in FIG. one; in fig. 4 is a section A-A in FIG. 3

The liquid aeration device consists of a mid-aerated aerator containing a disk 1 with orifices of a diameter of mm and more fixed on the gas supply line 2 with the help of the bracket 3, the liquid supply pipe 4, nuts 5 and 6, and gaskets 7-9, and also hydro jet

mixing node containing

A forest 10 with several pairs of pipes 11 with slit slots 12, freely placed on the upper closed end of the pipeline 4 at the location of the holes 13 in it (Fig. 3). (Fig, 3 and A).

Mesh 14 in frames, mounted with minimal fuss over the aerator disk, can be rotated together with the pipes, are rigidly attached to the pipes 11 along the bottom forming them. The relative placement and fastening of the aerator and hydro-jet mixing unit is made with regard to quick and easy disassembly and replacement of individual elements,

The device works as follows.

The gas through line 2 is fed through the holes in the disk 1 of the medium bubble.

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In addition to the aerator, the wastewater after preliminary mechanical cleaning through the pipeline 4 and the holes 13 enters the pairs of pipes 11 and leaves as flat jets through the slit slots 12 in the pipes.

Under the action of the reactive forces created by the jets flowing out of the slits, the wheel 10 with the pipes 11 begins to rotate. The grids rotating together with the pipes 11 in the frames cut off the gas bubbles from the disc holes before forming the critical tear-off bubble size, as a result of which, even with a medium-bubble aerator, very small bubbles with a diameter of 0.1 mm and smaller are obtained. It does not depend on the diameter of the hole or on the gas flow, but is mainly determined by the speed of rotation of the wheel and the number of pairs of pipes with grids in the frames.

The flat jets emerging from the tube gaps of the wheel rotate with the wheel and perform additional crushing of gas bubbles and circulation dispersion of the dispersion. A wheel with pipes and grids in the frames, rotating in the direction opposite to the exit of the jets, performs mechanical mixing of the dispersion. The interaction of oppositely directed flows of dispersions from circulation and mechanical mixing leads to additional fragmentation of bubbles, the formation of mutually penetrating vortices and active turbulization of the dispersion.

The proposed device allows to increase the gas utilization efficiency, as well as to reduce the energy consumption for the aeration process.

Claims (1)

Invention Formula A device for aerating a fluid containing a medium bubble aerator mounted on a gas pipeline, a fluid supply line, fig. 1 FIG. 2 FIG. four