RU168418U1 - Device for cleaning solutions from radionuclides - Google Patents

Abstract

The utility model relates to devices for sorption purification of liquid radioactive solutions from radionuclides. A device for cleaning solutions of radionuclides includes filter chambers coaxially located relative to each other, a cover (1), a bottom (2), a supply pipe (3) to the solution device and a discharge pipe (4) from the purified solution device, while the internal filter chamber ( 5) is filled with a sorbent (6), selectively extracting gamma-emitting radionuclides, and the external filter chamber (7) is filled with a sorbent (8), selectively extracting radionuclides that do not have gamma radiation. In this case, the upper part of the inner filter chamber (5) is attached to the cover (1) of the device, and its lower part has openings (9), and is also made without a bottom and rests on the bottom (2) of the device, which is removable, and the supply nozzles ( 3) to the solution and discharge device (4) from the purified solution device are located on the cover (1) of the device. The installation provides an increase in the simplicity and safety of maintenance while maintaining high efficiency in cleaning solutions from radionuclides. 3 s.p. f-ly, 2 ill.

Description

The utility model relates to devices for sorption purification of liquid radioactive solutions from radionuclides. The inventive utility model can be used for processing low- and medium-level liquid radioactive waste at various facilities of the nuclear industry, including nuclear power plants; in the processing of solutions resulting from the decontamination of buildings, structures, equipment, vehicles, etc. in the processing of natural water contaminated with radionuclides.

A device is known, which is a sorption unit for cleaning liquid radioactive waste, containing an external protective container and an internal removable cylindrical shell with a loaded sorbent, equipped with inlet and outlet pipes, detachable sealing units, upper and lower distribution devices, and an upper gripping device for changing the shell (see US patent for invention No. 4280906 "Filter for separating solid contaminants from a fluid, especially solid contaminants in a reactor cooling water used in nuclear reactor plants", 3 IPC B01D 29/23, B01D 35/153, priority about 21/11/1979, at 07.28.1981 was published).

A device is known, which is a sorption unit for cleaning liquid radioactive waste, containing an external protective container, equipped with a removable top cover, and located in it in suspended state, an internal removable cylindrical shell loaded with a sorbent, inlet and outlet pipes, detachable sealing units, upper and lower switchgears and upper gripper for changing the shell, inlet and outlet pipes connected to the container at the same level and interchangeable the bowl is equipped with a central pipe for the inlet, outlet of the solution and inlet and outlet pipes for connecting to the respective pipes of the container using a detachable sealing unit having gaskets and for placing the shell in suspension (see RF patent No. 2101072 “Sorption unit for cleaning liquid radioactive waste ”, 6 IPC B01D 27/02, B01D 35/32, B01D 15/00, B01J 47/02, G21F 9/12, priority dated 03/27/1997, published on 01/10/1998).

A disadvantage of the known devices is the need for burial of the sorbent together with a removable shell, which not only increases the volume of generated solid radioactive waste, but also require laborious maintenance for compact disposal.

Closest to the claimed model is a device that contains filter chambers located coaxially relative to each other and interconnected by a perforated false bottom, and means for passing solutions through the chambers, the inner chamber of the device is filled with a sorbent that selectively extracts cesium radionuclides, and the outer chamber is filled a sorbent that selectively extracts strontium radionuclides (see RF patent No. 2118856 "Method and device for cleaning solutions of strontium and cesium radionuclides", 6 IPC G21F 9/12, priority dated 05/06/1997, published on 09/10/1998).

A disadvantage of the known device for cleaning solutions of radionuclides of strontium and cesium is the connection of the filter chambers with a perforated false bottom located in an inaccessible place of the device, which complicates the maintenance of the device during cleaning, which is necessary when reloading the sorbent, and leads to additional exposure of personnel. There is no possibility of replacing the false bottom when clogging or damage during cleaning.

In addition, the location of the inlet pipe for supplying the solution to be cleaned into the inner chamber and the pipe for removing the solution to be cleaned in the lower part of the device also complicates its maintenance and increases the risk of industrial injuries, since the connection of hoses and pipelines to the pipes located in the lower part of the unit limits access to them the maintenance staff and complicates the work with the installation.

The technical result of the claimed utility model is to increase the simplicity and safety of maintenance of a device for cleaning solutions from radionuclides while maintaining high efficiency in cleaning solutions from radionuclides.

The claimed technical result is achieved by the fact that in the inventive device for cleaning solutions from radionuclides, including coaxially located relative to each other filter chambers, a cover, a bottom, nozzles for supplying a solution to the device and for withdrawing purified solution from the device, while the internal filter chamber is filled with sorbent, selectively extracting gamma-emitting radionuclides, and the external filter chamber is filled with a sorbent selectively extracting radionuclides that do not have gamma radiation, according to gender In this model, the upper part of the internal filter chamber is attached to the cover of the device, and the lower part has openings for the outlet of a solution purified from gamma-emitting radionuclides, the internal filter chamber made without a bottom and rests on the bottom of the device, which is removable, and the supply pipes to the device solution and removal from the device of a purified solution are located on the cover of the device.

In this case, the upper part of the internal filter chamber is attached to the device cover with an integral connection.

In addition, the nozzles for supplying the solution to the device and for removing the purified solution from the device are additionally equipped with filter elements.

Also, the lid and bottom of the device are additionally provided with strips with holes for gripping by lifting mechanisms.

The implementation of the upper part of the inner filter chamber attached to the cover of the device with an integral connection allows us to guarantee the impossibility of mixing crude and purified solutions in the upper part of the device, which reduces the level of gamma radiation on the surface of the working device for cleaning solutions from radionuclides, and, therefore, increases its simplicity and safety maintenance, and also guarantees high quality solution cleaning.

The implementation of the lower part of the inner filter chamber with openings without a bottom and resting on the bottom of the device, as well as making the bottom of the device removable, simplify and secure maintenance and dosimetric monitoring of the surface of the device associated not only with the replacement of sorbents, but also with the cleaning of structural elements of the claimed device carried out when replacing sorbents.

Placing the supply pipes into the solution device and draining the cleaned solution from the device onto the lid of the device for cleaning solutions of radionuclides also simplifies its maintenance and increases safety by reducing the risk of industrial injuries, since connecting hoses and pipes to the pipes located on the device cover does not limit access to them by maintenance personnel, simplifies the work with the installation as a whole and the regular monitoring of dose rate and radiation on the installation surface.

No technical solutions matching the totality of essential features of the utility model have been identified, which allows us to conclude that the utility model meets the patentability criterion of “novelty”.

The patentability condition “industrial applicability” is confirmed by examples of a specific embodiment of a device for cleaning solutions of radionuclides.

In FIG. 1 shows a disassembled device.

In FIG. 2 shows a general view of a device for cleaning solutions of radionuclides with local incisions.

A device for cleaning solutions from radionuclides includes filter chambers coaxially located relative to each other, a cover 1, a bottom 2, a supply pipe 3 to the solution device and a discharge pipe 4 from the purified solution device, while the internal filter chamber 5 is filled with a sorbent 6 selectively extracting gamma emitting radionuclides, and the external filter chamber 7 is filled with sorbent 8, selectively extracting radionuclides that do not have gamma radiation. In this case, the upper part of the internal filter chamber 5 is attached to the cover 1 of the device by a one-piece connection, and its lower part has openings 9 for the exit of the solution purified from gamma-emitting radionuclides, the internal filter chamber 5 being made without a bottom and resting on the bottom 2 of the device, which is made removable, and the supply pipe 3 to the solution device and the discharge pipe 4 from the purified solution device are located on the cover 1 of the device.

The upper part of the inner filter chamber 5 is attached to the lid 1 of the device by an integral connection, in particular a welding connection.

The supply pipe 3 to the solution device and the discharge pipe 4 from the purified solution device can be additionally equipped with filter elements (not shown in the drawing).

The cover 1 and the bottom 2 of the device can be additionally provided with strips 10 with holes 11 for capture by lifting mechanisms.

A device for cleaning solutions from radionuclides works as follows.

The solution containing radionuclides enters through the supply pipe 3 located on the cover 1 of the device into the internal filter chamber 5 of the device installed on the bottom 2 of the device and filled with a sorbent selective to gamma-emitting radionuclides 6. After the passage of the internal filter chamber 5, the solution through the holes 9 moves to an external filter chamber 7 filled with a sorbent 8 selective for radionuclides that do not have gamma radiation. After passing through the external filter chamber 7, the purified solution through the filter elements (not shown in the drawing) of the branch pipe 4 is sent to the collection tank (not shown in the drawing) to control the quality of cleaning. For the convenience of moving the device for cleaning solutions from radionuclides on the lid 1 and the bottom, weld strips 10 with holes for grippers 11.

Sorbents are replaced in accordance with the required radiation safety standards. After the exhaustion of the resource of sorbents, the supply of the initial solution is stopped and the pipelines are disconnected from the supply pipe 3 to the solution device and the discharge pipe 4 from the purified solution device. Then, with a lifting mechanism, the device for cleaning solutions from radionuclides by holes 11 made in the strip 10 of bottom 2 is turned over, the bottom 2 is removed, then the sorbents are unloaded using a pneumatic transport (special vacuum cleaner) or hydraulic transport (water flow), if necessary, clean or replace structural elements devices. In this case, the strip on the cover additionally serves as protection for the nozzles when installing the device on the cover. After that, the corresponding sorbents are loaded into the internal filter chamber 5 and the external filter chamber 7, the bottom 2 is put in place, it is fixed with bolted connections, the device is turned into working position, pipelines are connected to the supply pipe 3 to the solution device and the discharge pipe 4 from the cleaned device solution.

The performance of the installation is determined by the kinetic characteristics of the sorbents used, the composition of the solutions to be cleaned, and the size of the chambers in which the sorbents are located.

Example 1

The composition of the solution to be purified: cesium-137 - 3⋅10 ⁶ Bq / l; cobalt-60 - 2⋅10 ⁵ Bq / l; strontium-90 - 6⋅10 ⁵ Bq / l.

A solution with a volume of 10,000 liters was passed through a device in which an internal filter chamber contained 10 liters of sorbent based on ferrocyanide of iron, and in an external filter chamber located coaxially to the internal, there were 20 liters of sorbent based on manganese dioxide. The content of radionuclides in the solution, after purification, is less than 10 Bq / l. The dose rate of gamma radiation on the surface of the claimed device did not exceed the background values of the room where it was located. For comparison: the dose rate of gamma radiation at the inlet of a single-case conventional filter of the same size containing a mixture of the same sorbents exceeded background values by 50 times.

Example 2

The composition of the solution to be purified: cesium-137 - 2⋅10 ⁶ Bq / l; uranium - 3.4 mg / l, salt content of 120 g / l sodium nitrate.

A solution with a volume of 10,000 liters was passed through a device with 10 liters of sorbent based on nickel ferrocyanide in the internal filter chamber, and 20 liters of zirconium hydroxide sorbent in the external filter chamber located coaxially to the inside. The content of cesium radionuclides in the solution after purification is less than 10 Bq / L, the uranium content is less than 0.01 mg / L. The dose rate of gamma radiation on the surface of the claimed device did not exceed the background values of the room where it was located. For comparison: the dose rate of gamma radiation at the inlet of a single-case conventional filter of the same size containing a mixture of the same sorbents exceeded background values by 50 times.

The inventive utility model provides a simplification and safety of maintenance of a device for cleaning solutions from radionuclides while maintaining high efficiency in cleaning solutions from radionuclides.

Claims (4)

1. A device for cleaning solutions from radionuclides, including filter chambers coaxially located relative to each other, a cover, a bottom, nozzles for supplying a solution to the device and for removing purified solution from the device, while the internal filter chamber is filled with a sorbent that selectively extracts gamma-emitting radionuclides, and the external filter chamber is filled with a sorbent that selectively extracts radionuclides that do not have gamma radiation, characterized in that the upper part of the internal filter chamber is attached to the lid of the device, and its lower part has openings for the exit of the solution purified from gamma-emitting radionuclides, and the internal filter chamber is made without a bottom and rests on the bottom of the device, which is removable, and the nozzles for supplying and discharging the solution of purified solution to the device on the cover of the device. 2. A device for cleaning solutions from radionuclides according to claim 1, characterized in that the inner filter chamber is attached with an integral connection to the device cover with its upper part. 3. A device for cleaning solutions from radionuclides according to claim 1, characterized in that the nozzles for supplying the solution to the device and for withdrawing the purified solution from the device are additionally equipped with filter elements. 4. A device for cleaning solutions from radionuclides according to claim 1, characterized in that the lid and bottom of the device are additionally provided with strips with holes for capture by lifting mechanisms.

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