RU167019U1 - LIQUID AERATION DEVICE - Google Patents

Abstract

1. Device for aeration of liquid in the upper layers at a variable level of liquid in the tank, containing a frame, at least one air supply pipe, at least one float and at least one aerator, while at least one float is placed on the upper base of the frame , at least one aerator is placed on the lower base of the frame, at least one float is arranged to hold the frame in the tank, the frame is made high, which provides aeration of the upper layers of the liquid. 2. The device according to p. 1, characterized in that the frame is made high, which provides aeration of the upper layers of the liquid with a depth of 2 to 4 m. 3. The device according to claim 1, characterized in that the frame is made in the form of a prism or cylinder, while the frame is made of a material that does not pollute drinking water, mainly from polypropylene water pipes. The device according to claim 1, characterized in that the aerators are made disk. The device according to claim 1, characterized in that the air conduit is configured to supply air to the reservoir through the aerator. The device according to claim 1, characterized in that the air conduit is configured to supply air to the reservoir through the frame and then through the aerator.

Description

The utility model relates to the field of water treatment, industrial and domestic wastewater, in particular, to devices for aeration of water spaces and can be used in the treatment of water or other liquids from dissolved gases, mainly from radon in tanks (mainly in water towers).

The prior art devices and special methods of water preparation are described in textbooks for universities (for example, Public Hygiene / Edited by the authors V.T. Mazaev. 2nd ed. M .: GEOTAR-Media, 2005. 304 p. 5.4). Based on the known methods, dissolved gases, including radon, are removed by non-reagent, aeration methods (air purging) in water towers. When purging, air is supplied through special devices (aerators) located at the bottom (at the base) of the water tower.

A disadvantage of the generally accepted known solution is the need to create an extremely high overpressure on the compressor (s) to provide the required aeration.

For example, to remove radon in the 18-meter tower of Rozhnovsky when placing aerators on the bottom, it will be necessary to create an excess pressure on the compressor (s) of about 2 atm., Which leads to an excessive consumption of electricity. The cost of using 1 cubic meter of water will be about 300 rubles. (the price is for 2015).

The technical result of the claimed utility model is to reduce the duration of the process of treating water or other liquid and reduce its cost by aeration of the upper layers of water or liquid in the range from 2 to 4 m from the surface of the water, and the use of less powerful compressors (pumps) for this.

The technical result is achieved by the fact that, a device for aeration of liquid in the upper layers at a variable level of liquid in the tank, comprising a frame, at least one air supply pipe, at least one float and at least one aerator; wherein the frame is made in the form of a prism or cylinder, on the upper base of which at least one float is placed, at least one aerator is placed on the lower base of the prism or cylinder; at least one float provides retention of the housing in the tank; the height of the housing provides aeration of the upper layers of the liquid.

According to the claimed utility model, the height of the housing provides aeration of the upper layers of the liquid with a depth of 2 to 4 m.

According to the claimed utility model, the frame is made of a material that does not pollute drinking water, mainly from polypropylene water pipes.

According to the claimed utility model, aerators are made disk.

According to the claimed utility model, air is supplied to the tank through an air-conducting pipeline and then through an aerator.

According to the claimed utility model, air is supplied to the tank through an air-conducting pipeline, then through a frame and then through an aerator.

The utility model is illustrated by the following drawings.

in FIG. 1 is a general diagram of a device for aerating liquid in the upper layers with a variable level of liquid in the tank.

Devices for aeration of liquid in the upper layers at a variable level of liquid in the tank (see Fig. 1), consists of a frame (1), at least one float (2), at least one air supply pipe (3) and at least one aerator (4).

The frame (1) can be made in the form of a prism or cylinder, on the upper base of which at least one float (2) is placed, at least one aerator (4) is placed on the lower base. The height of the casing (1) is made so as to provide aeration of the upper liquid layers with a depth of 2 to 4 m. In this case, the frame (1) is made of material that does not pollute drinking water and the ability to supply air to at least one aerator (4), for example, from polypropylene water pipes.

In FIG. 1 shows a design in which the frame is represented by a prism with an upper and lower base in the form of a hexagon, while three floats and three aerators, respectively, are installed on the upper base and lower base at an equal distance from each other.

The float (2) ensures that the device is kept afloat in the upper part of the tank (water tower) under conditions of a variable liquid level in it.

The air from the compressor (not shown in FIG.) Is supplied through at least one air supply line (3).

Further, the air supply to the tank can be performed according to the following schemes.

Scheme 1. Air from the compressor is transmitted through at least one air supply pipe (3) immediately to at least one aerator (4).

Scheme 2. Air from the compressor is transmitted through at least one air supply pipe (3) to the frame (1), then the frame (1) provides the transfer of injected air to at least one aerator (4).

Scheme 1 is easy to implement, and Scheme 2 provides a rational use of the properties of the frame (1).

To increase the efficiency of degassing, at least one aerator (4) can be disk (for example, microbubble from sintered titanium powder, with a pore size of 15-150 microns).

The above described device operates as follows.

At a variable level of liquid in the water tower, the claimed device is lowered into the tank, while holding in the upper part provides at least one float. Further, through at least one aerator (4) according to scheme 1 or 2, air is supplied. At least one aerator (4) creates an air stream at a depth of 2 to 4 m (due to the height of the housing (1), with which dissolved gas, such as radon, leaves.

Comparative characteristics of the claimed device with the well-known are presented in the table.

As can be seen from the table, the claimed device for aeration of liquid provides the use of compressors of lower power, reducing the duration of the processing process by 2.3 (5.8) times and cheaper by 18.4 (6.8) times, due to the provision of aeration in the upper layers water or liquid in the range of 2 to 4 m from the surface.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed technical solution:

- an object embodying the claimed technical solution, when it is implemented, is intended for aeration of water spaces and can be used to purify water or other liquids from dissolved gases, mainly from radon in tanks, mainly in water towers.

- for the claimed object as described in the independent clauses of the formula below, the possibility of its implementation using the means and methods known from the prior art as described in the application on the priority date has been confirmed;

- the object embodying the claimed technical solution, when implemented, is able to ensure the achievement of the technical result perceived by the applicant.

Therefore, the claimed subject matter meets the conditions of patentability “novelty” and “industrial applicability” under applicable law.

Claims (6)

1. Device for aeration of liquid in the upper layers at a variable level of liquid in the tank, containing a frame, at least one air supply pipe, at least one float and at least one aerator, while at least one float is placed on the upper base of the frame , at least one aerator is placed on the lower base of the frame, at least one float is arranged to hold the frame in the tank, the frame is made high, which provides aeration of the upper layers of the liquid. 2. The device according to p. 1, characterized in that the frame is made high, which provides aeration of the upper layers of the liquid with a depth of 2 to 4 m 3. The device according to p. 1, characterized in that the frame is made in the form of a prism or cylinder, while the frame is made of a material that does not pollute drinking water, mainly from polypropylene water pipes. 4. The device according to claim 1, characterized in that the aerators are made disk. 5. The device according to p. 1, characterized in that the air conduit is configured to supply air to the reservoir through the aerator. 6. The device according to p. 1, characterized in that the air conduit is configured to supply air to the reservoir through the frame and then through the aerator.

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