RU64425U1 - SYSTEM OF CLEANING WORKING CARTRIDGES OF THE NUCLEAR REACTOR TYPE VVER-440 - Google Patents

Abstract

The utility model relates to the field of nuclear energy, relates to methods for removing radioactive corrosion products of materials of the primary circuit of power units and can be used to solve the problems of ensuring nuclear and radiation safety of reactors related to reactors of the type water-to-water power reactor (WWER), namely, to carry out work on ensuring the design coolant flow rate through working cassettes and reducing the pressure drop in the active zones of power units with VVER-440 reactors. Effect: improving the technical and operational parameters of the system for cleaning working cassettes by simplifying the design of system elements, the process of assembling the system, not a high price for the system, increasing the design flow rate of the coolant through working cassettes and reducing the pressure drop across the active zones of nuclear reactors of the VVER-440 type, increasing the level of nuclear and radiation safety, extending the life of working cassettes to the design value and maintaining the capacity of the reactor installation at nominal (project nom) level, which is achieved due to the fact that the cleaning system for working cassettes of a nuclear reactor consists of an underwater filter 1 for cleaning the water of the holding pool 2 of the power unit, an underwater suction booster pump 3 with a hose adapter 21, a loose cover type 12 4, equipped with a connection unit underwater suction booster pump 5. To ensure the cleaning of working cassettes 6 in the holding pool 2, a container compartment 7 with a universal socket 8 is provided, which allows the installation of a loose cover in it April 12 for transporting fuel. A loose cover type 12 4 consists of a cylindrical shell with a base 9, a central pipe 10 with a bayonet grip and three rows of spacing grids of a loose cover type 12 11, 12, 13.

In the upper spacer grid 11, 30 hexagonal holes 19 are made, in the middle spacer grid 12-30 round holes 20, in the lower spacer grid 13 holes are provided for water inlet and outlet (not shown). The step of placing nuclear fuel in a loose cover of type 12 4 eliminates the occurrence of a self-sustaining nuclear chain reaction, both in air and in chemically desalinated water without a neutron absorber. The connection unit of the underwater suction booster pump 5 allows you to connect an underwater suction booster pump 3 to it using a flexible hose 18 through the hose adapter 21 of the underwater suction booster pump 3. The connection unit of the underwater suction booster pump 5 has a seat for the shank of the working cassette 14, a cylindrical part for the input of the shank of the working cassette 15, the conical part of the node for connecting the underwater suction booster pump 16 with a hose adapter for the underwater suction b the booster pump 21, a device for connecting the flexible hose of the underwater suction booster pump 17 for connecting the connection unit of the underwater suction booster pump 5 to the hose adapter 21 of the underwater suction booster pump. 3. Fig. 7, 1 p.

Description

The utility model relates to the field of nuclear energy, relates to methods for removing radioactive corrosion products of materials of the primary circuit of power units and can be used to solve the problems of ensuring nuclear and radiation safety of reactors related to reactors of the type water-to-water power reactor (WWER), namely, to carry out work on ensuring the design flow rate of the coolant through the working cassettes and reducing the pressure drop in the active zones of power units with WWER reactors.

When operating power units with VVER-type nuclear reactors, after a certain time, spacer grids and shells of fuel elements (fuel elements) become contaminated, which leads to a decrease in the design coolant flow rate through working cassettes and to an increase in the pressure drop across the active zones of power units. The result of this may be overheating of the fuel cassettes of working cassettes with their possible depressurization and early rejection of working cassettes (with the subsequent prohibition of their further operation according to the rejection criteria according to the level of specific activity I ¹³¹ in the water sample of the pencil case for tightness control of the fuel cassettes of working cassettes) or a decrease in the power of the reactor installation.

The applicant has not identified sources containing information about technical solutions identical to the present invention, which allows us to conclude that it meets the criterion of "novelty."

Effect: improving the technical and operational parameters of the system for cleaning working cassettes by simplifying the design of system elements, the process of assembling the system, not a high price for the system, increasing the design flow rate of the coolant through working cassettes and reducing the pressure drop across the active zones of nuclear reactors of the VVER-440 type, increasing level of nuclear and radiation safety,

extending the life of working cassettes to the design value and maintaining the power of the reactor installation at the nominal (design) level.

The technical result is achieved in that the cleaning system of the working cassettes of a nuclear reactor, characterized in that it consists of an underwater filter for cleaning the water of the exposure pool, an underwater suction booster pump, which is connected with a hose adapter with a flexible hose to the connection unit for the underwater suction booster pump mounted on the average spacer grid of a loose cover of type 12 (the semantic content of the feature in the formula "loose cover of type 12" is as follows: "Cover is loose Clause 12 is intended for installation of working cartridges, fuel assemblies and extensions in it when overloading the VVER-440 reactor core "(see" Cover is loose type 12. 1137.36.02.000. Passport ")), and the connection unit for the underwater suction booster pump has a landing socket for the shank of the working cassette of the nuclear reactor, a cylindrical part for the input of the shank of the working cassette of the nuclear reactor, the conical part for connecting the connection node of the underwater suction booster pump through the device for connecting a flexible hose anga with a hose adapter of the underwater suction booster pump.

Improving the technical and operational parameters of the cleaning system for working cassettes by simplifying the design of system elements and the process of assembling the system is carried out by simple elements: a connection unit for an underwater suction booster pump, mounted for the first time on a middle spacer grid of a loose type 12, a hose adapter for an underwater suction booster pump, flexible hose, the presence of a universal socket in the container compartment of the exposure pool. The system achieves the interconnection of all elements - an underwater filter, an underwater suction booster pump, an underwater suction booster pump connection unit,

first mounted on the middle spacer grid of a loose cover type 12.

With the help of transport and technological equipment and the presence of a universal socket located in the container compartment of the exposure pool, a loose type 12 cover is easily and quickly installed in it, which is designed to transport fresh nuclear fuel from the fresh fuel unit of power units to the exposure pool, and to transport spent nuclear fuel from the pool holding one power unit to the holding pool of another power unit and transporting spent nuclear fuel from the holding pool of the power unit to ahtu audit reactor vessel for sending them to the reprocessing plant, the first node is further equipped with a suction connection of subsea booster pump. The cleaning system for working cassettes allows using the underwater suction booster pump connection unit: to quickly connect the underwater suction booster pump to the flexible hose connector located at the bottom of the underwater suction booster pump connection unit, to quickly connect the underwater suction booster pump to the pump hose adapter. Assembly (installation) of the system is carried out in the central hall of the power unit (“dry”). The working cassette of a nuclear reactor with the help of a reloading machine with its shank is installed in the upper part of the connection unit for the underwater suction booster pump - a landing socket for the shank of the working cassette.

The underwater suction booster pump works in combination with an underwater filter. It absorbs water, which, passing through the working cassettes of a nuclear reactor, washes away from the spacer grids and shells of the fuel elements of the working cassette of contamination. Particles up to 3 mm in size are sucked in and transported to the filter element, particles larger than 3 mm get into the receiving chamber of the underwater suction booster pump and then are removed from it in special

containers. For the first time when using this system, purified water is returned to the holding pool, while the chemical composition of the water does not change, which confirms nuclear and radiation safety during the operation of the system for cleaning working cartridges. For the first time, using the cleaning system for working cassettes simultaneously with cleaning the working cassette of a nuclear reactor, the exposure pool water is cleaned, personnel dose levels are reduced, the level of radiation contamination of the exposure pool walls and work cassettes is minimized, and the level of nuclear and radiation safety is increased.

The low price of the cleaning system for working cassettes is due to the fact that an underwater filter for water purification in the exposure pool of the power unit, an underwater suction booster pump with a hose adapter, and a loose cover type 12 are known (see the “UWS-4 Underwater Filter Operation Manual”). nuclear plants for water treatment of exposure pools and do not require investment for their purchase, but they are used only for water treatment of the exposure pool itself. Therefore, no additional investment is required to purchase them. The node for connecting an underwater suction booster pump is not expensive, it is made of stainless steel, its manufacturing process is not complicated.

As a result of using the inventive system, contaminants from spacer grids and claddings of the fuel elements of the working cassette of the nuclear reactor are removed, the design coolant flow rate through the working cassette is increased, the pressure drop across the active zones of VVER-440 type nuclear reactors is reduced. As a result, it is possible to extend the life of the working cassette to the design value and maintain the power of the reactor installation at the nominal (design) level.

All the distinguishing features of the proposed technical solution are significant, because affect the achievement of a technical result and are in a causal relationship with the specified

The technical result, namely, with the help of the claimed utility model, provides improved technical and operational parameters of the cleaning system for working cassettes by simplifying the design of system elements, the process of assembly of the system, not a high price of the system, increasing the design flow rate of the coolant through working cassettes and reducing the pressure drop in the active zones nuclear reactors of the WWER-440 type, increasing the level of nuclear and radiation safety, extending the life of working cartridges to the design value and dderzhanie power reactor installation at the nominal (project) level. The claimed technical solution can be used at nuclear power plants with reactors of the WWER-440 type.

At the same time, it should be noted that all the above features of the claimed utility model were not found during the patent and information search in the prior art, and therefore it can be concluded that the claimed utility model meets the patentability conditions provided for in Article 4 of the Patent Law of the Russian Federation.

The proposed device is illustrated in graphic materials. In the drawings (diagrams) is a schematic diagram of the cleaning of working cassettes of a nuclear reactor and water of the exposure pool.

Figure 1 - diagram of a system for cleaning working cartridges;

Figure 2 - cover loose type 12 with a node for connecting an underwater suction booster pump;

Figure 3 - site connection of an underwater suction booster pump;

Figure 4 - landing socket for the shank of the working cartridge;

5 is a cylindrical part for the input of the shank of the working cassette;

6 is a conical part for connecting the connection unit of the underwater suction booster pump through the device for connecting a flexible hose to the hose adapter of the underwater suction booster pump using a flexible hose;

7 is a device for connecting a flexible hose to the connection unit of the underwater suction booster pump.

SUMMARY OF THE INVENTION

The cleaning system of the working cassettes of a nuclear reactor, consists of an underwater filter 1 for cleaning the water of the exposure pool 2 of the power unit, an underwater suction booster pump 3 with a hose adapter 21 of a cover that is loose, type 12 4, equipped with a connection unit for an underwater intake booster pump 5. Cover is loose, type 12 4 is one of the elements of the system of reloading and transportation of nuclear fuel. To ensure the cleaning procedure of the working cassettes 6 in the holding pool 2, a container compartment 7 with a universal socket 8 is provided, which allows the installation of a loose type 12 4 cover for transporting nuclear fuel. A loose cover type 12 4 consists of a cylindrical shell with a base 9, a central pipe 10 with a bayonet catch and three rows of spacer grids of a loose cover 12, 11, 12, 13. In the upper spacer grid 11, 30 hexagonal holes 19 are made, in the middle spacer grid 12 -30 round holes 20, in the lower spacer grid 13 holes are made for the intake and discharge of water (not shown). The step of placing nuclear fuel in a loose cover of type 12 4 eliminates the occurrence of a self-sustaining nuclear chain reaction, both in air and in chemically desalinated water without a neutron absorber. The connection unit of the underwater suction booster pump 5 allows you to connect an underwater suction booster pump 3 to it using a flexible hose 18 through the device for connecting the flexible hose of the underwater suction booster pump 17. The working cassette of the nuclear reactor 6 is installed with its shank in the mounting socket for the shank of the working cassette 14 of the assembly connecting an underwater suction booster pump.

The connection unit of the underwater suction booster pump 5 has a seat for the shank of the working cassette 14, a cylindrical part for the input of the shank of the working cassette 15, the conical part of the connection unit of the underwater suction booster pump with a hose adapter for the underwater suction booster pump 16, a device for connecting a flexible hose of the underwater suction booster pump 17 for connecting the connection unit of the underwater suction booster pump 5 with a hose adapter underwater suction ayuschego booster pump.

The operation of the cleaning system of working cassettes of a nuclear reactor.

The system for cleaning the working cassettes of a nuclear reactor is mounted before the start of work on the reloading of nuclear fuel during the scheduled preventive repair of the power unit. The underwater suction booster pump 3 works in combination with the underwater filter 1. The underwater filter 1 is activated when the pool 2 is filled with water for carrying out transport and technological operations with nuclear fuel. The cleaning system for working cassettes works periodically during the work on reloading spent nuclear fuel after installing the working cassette 6 in the connection unit of the booster pump 5 mounted on the middle spacer grid 12 of the loose cover 12 4.

In the universal socket 8 of the container compartment 7 of the holding pool 2, a loose cover 12 4 is installed, first equipped with a connection unit for the booster pump 5. In the container compartment 7 of the holding pool 2, an underwater filter 1 and an underwater suction booster pump 3 are installed, which flexible hose 18 through the openings of the cover loose type 12 4 is connected to the connection unit of the underwater suction booster pump 5. By a reloading machine, the working cassette 6 is installed with its shank in the seat for the shank eyes cassette 14. Underwater suction booster

the pump 3 absorbs water, which, passing through the working cassette 6, washes away pollution from the spacer grids and shells of the fuel elements of the working cassette. Particles up to 3 mm in size are sucked in and transported to the filter element, particles larger than 3 mm get into the receiving chamber of the underwater suction booster pump 3 and then are removed from it in special containers. The purified water is returned to the holding pool 2, while the chemical composition of the water does not change, which confirms the provision of nuclear and radiation safety during the operation of the cleaning system working cassettes. In addition, using an underwater filter 1, the water of the exposure pool 2 itself is purified.

The use of the claimed utility model for cleaning working cassettes at nuclear power plants with VVER-440 reactors, simple in design and assembly process. Its use will allow:

- increase the design coolant flow rate through working cassettes;

- to reduce the pressure drop across the active zones of VVER-440 reactors;

- increase the level of nuclear and radiation safety:

- extend the life of the working cassettes of a nuclear reactor to the design value due to the exclusion of early culling (unloading) for technological and radiation parameters:

- maintain the capacity of the reactor at the nominal (design) level.

Claims (1)

The system for cleaning the working cassettes of a VVER-440 nuclear reactor, consists of an underwater filter for cleaning the pool water, an underwater suction booster pump, which is connected via a hose adapter with a flexible hose to the connection unit for the underwater suction booster pump mounted on the middle spacer grid of a loose type 12, and the connection unit of the underwater suction booster pump has a landing socket for the shank of the working cassette of a nuclear reactor, a cylindrical part l for the input of the shank of the working cassette of the nuclear reactor, the conical part for connecting the connection unit of the underwater suction booster pump using a flexible hose with a hose adapter for the underwater suction booster pump.