RU2641122C1 - Installation of purifying water from general alpha-radioactivity and radon - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: water purification installation contains a degasser in the form of a column (1) with a cover (2) and with the branch pipes for supplying the purified water (3) and the gas outlets (4) at the top of the column and the branch pipes for the air supply (5) and the outlet of the purified water (6) at the bottom of the column filled with a nozzle (7), a holding tank (8), a device for the air supply (9). The installation is equipped with an additional branch pipe (10) at the bottom of the column (1) below the layer and the second branch pipe (11) in the middle of the column (1) above the nozzle layer (7), and one of the branch pipes is attached to the rinsing water supply (12) and the second branch pipe is attached to the outlet of sewage or the storage-tank. A stop valve (13) is installed on the branch pipe of the purified water outlet. The nozzle is located between two perforated diaphragms (14) and (15). The column is equipped with ultrasonic radiators (16) located along the perimeter of the volume filled with a nozzle.

EFFECT: installation provides increased radiation safety during operation, increased efficiency of water purification and cleaning of the nozzle material, followed by the removal of radioactive fallout for disposal.

2 cl, 1 dwg

Description

The present invention relates to the field of water purification and water treatment, preferably purification of water from general alpha-radioactivity and radon, including for drinking purposes.

A known apparatus for removing gases from source water, in particular hydrogen sulfide (see patent SU 17244311 A1 “Apparatus for degassing liquids”, IPC B01D 19/00, 04/07/1992), consisting of a vertical cylindrical body with a conical upper part, which coaxially installed inner chamber of the corresponding form with hole plates, forming an annular cavity in communication with the pipe for supplying hot air under pressure. The disadvantage of this apparatus is the low intensity of the degassing process, the need for additional heating of the air entering the apparatus, the need for additional heating of the liquid and the final degassing with deep vacuum, which leads to additional energy consumption.

A known installation for water degassing, including a degasser, made in the form of a column with a nozzle and a water collector placed in it, and an inducer of atmospheric air consumption (see RF patent No. 2160712 "Method of water degassing", IPC C02F 1/20, 20.12.2000) . The unit operates at reduced anti-atmospheric pressure. The main disadvantage of this installation is the insufficient degree of removal of gases from degassed water and the inefficient operation of the air supply system.

The closest analogue to the claimed technical solution is the installation for the removal of radon from natural waters (see RF patent No. 2230706 "Installation for the removal of radon from natural waters", IPC C02F, 2004.06.20), including a degasser, a collection tank, a feed pump natural water into the degasser and an inducer of atmospheric air consumption with an additional stripper, the collecting tank is equipped with a circulation pump, the stripper is installed in parallel with the degasser through air and circulating water, and a shut-off valve is installed on the circulating water supply line to the degasser organ. The disadvantage of this installation, as well as the others described above, is the contamination of nozzle materials, for example, Rashig rings, with radioactive decay products of radon, isotopes of lead, bismuth, polonium in the process of radon degassing on the nozzle of the aeration column (S.Yu. Larionov, A .A. Panteleev, B.E. Ryabchikov, M.M. Shilov, A.S. Kasatokin “Water purification of underground sources from natural radionuclides” J. “VST” No. 2, 2015). As a result of the accumulation of radioactive isotopes on the nozzle material, an increased background of radiation of alpha, beta and gamma radiation occurs, which is extremely dangerous for staff. In addition, during the operation of the installation, volley release of radioactive decay products from the nozzle material into the outlet pipe of the installation and further into the water consumption network is possible.

The problem to which the claimed invention is directed, is to create a simple in design, efficient, reliable and safe during operation of a water treatment plant for general alpha-radioactivity and gaseous radon, including for drinking purposes, removal of radioactive fallout from nozzle materials with subsequent disposal waste.

This problem is solved due to the fact that the claimed installation of water purification from general alpha-radioactivity and from radon gas, containing a degasser in the form of a column with a lid and with nozzles for supplying purified water and exhaust gases in the upper part of the column and nozzles for air supply and exhaust purified water in the lower part of the column filled with a nozzle, the collecting tank, an air supply apparatus, is equipped with an additional nozzle in the lower part of the column below the nozzle layer and a second additional nozzle in the middle of the column, above the I nozzle, one of the extra pipes is connected to the installation supplying washing water, a second additional conduit connected to the center tap of the wash water or the storage tank, and removing purified water pipe installed valves.

The column is equipped with two perforated diaphragms between which the nozzle is placed. The column is filled with a nozzle at 0.5-0.9 of its height.

The column is equipped with ultrasonic emitters placed around the perimeter of the volume filled with the nozzle.

The nozzle for supplying purified water can be introduced into the internal volume of the column and equipped with spray nozzles, and the nozzles are additionally equipped with ultrasonic emitters located on the surface of the nozzles.

The technical result provided by the given set of features is to increase safety, including radiation, during operation of the installation, the abnormal accumulation of radioactive isotopes on the nozzle is eliminated, the risk of radioactive elements getting into drinking water, for example, during volley discharge from the nozzle surface during installation operation, is increased the effectiveness of water purification from alpha-radioactivity, radon and other gases. The technical result is achieved due to the fact that the installation column is equipped with two additional nozzles: one above the nozzle layer, the other below, the supply of washing water to one of the nozzles through the nozzle layer allows the removal of radioactive fallout from the nozzle materials with the subsequent disposal of radioactive fallout for disposal. Placing the nozzle between two perforated diaphragms and supplying the column at the nozzle location with ultrasonic emitters makes it possible to intensify the flushing and increase the washing efficiency of the nozzle material, including from radioactive elements. The supply of the nozzle for supplying purified water with spray nozzles, for example, of a vortex type, and nozzles with additional ultrasonic emitters located on the surface of the nozzles, improves the atomization of the source water and the efficiency of radon removal.

The invention is illustrated by drawings, which do not cover and, moreover, do not limit the entire scope of the claims of this technical solution, but are only illustrative materials of a particular case of execution.

The invention is illustrated by the drawing, which shows a General view of the installation of water purification from total alpha radioactivity and from gaseous radon.

Installation of water purification from general alpha-radioactivity and from radon gas contains a degasser in the form of a column 1 with a cover 2 and with nozzles for supplying purified water 3 and exhaust gases 4 in the upper part of the column and nozzles for supplying air 5 and removal of purified water 6 in the lower part of the column filled with nozzle 7, collecting tank 8, air supply apparatus 9, for example, a blower, the unit is equipped with an additional nozzle in the lower part of the column 10 below the nozzle layer and a second additional nozzle in the middle of the column 11, above the nasa layer ki, and one of the additional nozzles is connected to the washing water supply 12, the second additional nozzle is connected to the washing water outlet or the storage tank, and stop valves 13 are installed on the purified water outlet, the nozzle is located between two perforated diaphragms 14 and 15. B the volume where the nozzle is placed, for example, along the perimeter of the column body, ultrasonic emitters 16 are installed, nozzles such as nozzles 17, for example, centrifugal, vortex or set, are installed on the pipe for supplying purified water atye, preferably with ultrasonic transducers arranged on the surface of the dispensers. During the operation of the installation, the purified water is sprayed by nozzles, enters the nozzle, an air stream is supplied from below, degassing, removal of radon from the water and gas blowing through the upper nozzle takes place on the developed surface of the nozzle. Radon decay products and associated sediments contained in the source water are accumulated on the nozzle, including radioactive isotopes of lead, bismuth, etc. To remove these products from the nozzle material, the nozzle is periodically washed by passing a stream of water through the nozzle by supplying water through the nozzle 10 and draining the flushed contaminated water through the nozzle 12 to the drain to the sewer or to the accumulator with subsequent disposal, while the shutoff valves 13 must be closed . It is possible to wash and top-down, feeding rinsing water through the pipe 11 and removing through the pipe 10, as well as sequentially from the bottom up, and then from top to bottom. Perforated diaphragms exclude nozzle movement and can improve flushing due to a greater supply of flushing water and a higher flow rate and, therefore, increase the efficiency and safety of work due to better washing of the nozzle from radioactive deposition from water. To exclude the release of water during washing, the nozzles 3 and 4 can be equipped with shut-off valves 18 and 19, which closes during the washing mode. Ultrasonic emitters 16 located on the column, for example along the perimeter of the nozzle volume, improve the washing of the nozzle. Ultrasonic nozzle emitters improve the process of spraying water and degassing. Filling the column with a nozzle at 0.5-0.9 of its height provides the best conditions for degassing water and blowing gases, including radon, as well as for washing the nozzle. For example, in a pilot installation, when filling a column with a nozzle of less than 0.5 height, the probability of a breakthrough of radon and radioactive components increased by 1.5–3 times, and when filling a column with a nozzle of more than 0.9 height, washing of the nozzle deteriorated by a factor of 1.4–2, which led to the accumulation of a radioactive deposit, worsened the conditions for safe operation of the installation. When filling the column with a nozzle in the range of 0.5-0.9, its penetration height of radon and radioactive components was not observed and effective washing of the nozzle in the washing mode was ensured. The use of ultrasonic emitters along the perimeter of the nozzle volume 1.5-1.9 times improved the washing of the nozzle from accumulated sediments, and increased the efficiency and safety of the installation.

The proposed design of the installation for water purification from general alpha-radioactivity and radon was implemented by Conversion JSC, the samples of which were used at the facilities of water treatment systems.

Claims (2)

1. Installation of water purification from general alpha-radioactivity and from radon gas, containing a degasser in the form of a column with a lid and with nozzles for supplying purified water and exhaust gases in the upper part of the column and nozzles for supplying air and exhausting purified water in the lower part of the column, filled nozzle, collecting tank, apparatus for supplying air, characterized in that the installation column is equipped with two perforated diaphragms between which the nozzle is placed, the column is filled with the nozzle at 0.5-0.9 of its height and equipped with ultrasound with emitters placed around the perimeter of the volume filled with the nozzle, the installation is equipped with an additional nozzle in the lower part of the column below the nozzle layer and a second additional nozzle in the middle of the column above the nozzle layer, one of the additional nozzles connected to the washing water supply unit, the second additional nozzle connected shut-off valves are installed to the wash water outlet or the storage tank, and shut-off valves are installed on the branch pipe of the treated water drain. 2. Installation of water purification from general alpha-radioactivity and from radon gas according to claim 1, characterized in that the pipe for supplying purified water is introduced into the inner volume of the column and is equipped with spray nozzles, and the nozzles are additionally equipped with ultrasonic emitters located on the surface of the nozzles.

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