JPH0432639Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a crud removal device for extracting crud from a crud separation device for separating crud in a fluid such as nuclear reactor coolant and storing the crud in an isolated state.

In general, nuclear reactors use fluids such as light water, sodium, carbon dioxide, helium gas, and reactor coolants, depending on the type of reactor, to extract heat generated in the reactor core. By the way, many constituent materials such as high-quality steel are used in the reactor pressure vessel, piping, etc., and during reactor operation, cladding (Fe ₂ It is said that iron oxide fine particles such as O ₃ and Fe ₃ O ₄ are generated and mixed into the reactor coolant, causing it to flow through the circulation path. These cruds are extremely small in quantity and depend on the operating history of the reactor and differences in the constituent materials, but the particle size is approximately 1 to 10 micrometers (μm) and gradually grows. It has been observed that there is a trend. Furthermore, since crud is a fine particle, it does not affect normal nuclear reactor operation.

However, if crud is contained in the reactor coolant in a suspended state, it will settle and accumulate in areas where the flow rate is slow or absent, or even during shutdown. Since cladding is a radioactive product, this area becomes a particularly high-radiation area and increases the overall air dose. Therefore, it may increase the degree of radiation exposure of workers and may cause trouble in the functioning of the nuclear reactor system. Problems remain, such as the need to partially replace the tube to remove the deposited crud.

In addition, in order to separate and remove crud in the reactor coolant, it is possible to use a crud separation device that uses magnetization, centrifugation, etc., but since crud is a high-level radioactive material, Special care must be taken when removing the crud from the crud separator.

This idea was made considering the background of the previous period,
The purpose of this is to store the concentrated crud separated by the crud separator in an isolated state, and to process the reactor coolant and gas contained in the crud, thereby ensuring the integrity of the nuclear power generation equipment. The aim is to improve

Hereinafter, the present invention will be explained based on embodiments shown in the drawings.

The symbol 1 in the figure is a crud separation device.
Reactor coolant (for example, light water) is supplied to the coolant inlet 2 as shown by the arrow in the figure, and the crud is separated by magnetization, centrifugation, etc. and collected near the crud outlet 3, and the crud is removed. The nuclear reactor coolant is made to flow into the reactor coolant circulation path from the coolant outlet 4 as indicated by arrows in the figure.

A crud removal device 10 according to the present invention is connected to the crud outlet 3 of the crud separation device 1. The crud removal device 10 includes a connecting adapter 11 for connecting to the crud outlet 3;
A cladding container 12 detachably connected to the connecting adapter 11, a drain trap 13 connected to the cladding container 12 via the connecting adapter 11, and a steam separator 14 connected to the drain trap 13. The basic configuration includes a vacuum pump 15 connected to the steam/water separator 14.

The connection adapter 11 includes a crud connection port 16 for sending the crud concentrated by the crud separation device 1 into the crud container 12 together with the reactor coolant, and a crud connection port 16.
The reactor coolant etc. are transferred from the cladding vessel 12 to the drain trap 13 at a position parallel to and spaced apart from the drain trap 13.
The cladding connection port 16 and the outlet 17 are fitted to the cladding container 12 in a liquid-tight manner and can be removed from the cladding container 12 by an attachment/detachment mechanism such as a coupler. It has the following.

The clad container 12 has a clad connection port 16.
It has a built-in filtration device such as a metal filter that filters the concentrated crud fed from the reactor, stores the crud content inside, and sends out the fluid content, such as the reactor coolant content, to the discharge port 17, and The outer surface is covered with a radiation-shielding wall to keep the radioactive material shielded.

And the outlet 17 of the connection adapter 11
is connected to the drain trap 1 via the coolant discharge pipe 18.
3. This drain trap 13 captures the gas content when the reactor coolant is liquid or has been liquefied, and transfers the liquid content to the drain pipe 19.
The cleaning material is discharged via the cleaning material supply pipe 20 and, if necessary, the cleaning material is poured into the interior from the cleaning material supply pipe 20 to perform the cleaning treatment.

On the other hand, the fluid discharged from the drain trap 13, the majority of which is gas, is separated into a liquid component and other gas components by a steam separator 14, and the gas component is taken up by a vacuum pump 15, and then the gas component is A gas purifier 22 for processing gas, consisting of a prefilter, a filter, and a charcoal filter, is connected to the tip of the discharge pipe 21, and the purified gas is discharged into the atmosphere.

Furthermore, if these devices are installed in a facility, they can be connected to the system.

In addition, M in the figure is a motor for driving the cladding separation device, and C and B are the motors for driving the cladding separation device, in anticipation that the dust generated by the operation (rotation, etc.) of the cladding separation device contains radioactive materials. This is an exhaust treatment device for treating gas in the atmosphere.

According to the crud removal device configured as described above, the crud container 12 is attached to the crud connection port 16 and the discharge port 17 of the connection adapter 11 as shown in chain lines, and
The crud that has been collected near the crud outlet 3 of the crud separator 1 and has become concentrated (enriched crud) is connected to the crud by the weight of the crud itself and the pressure of the reactor cooling water upstream from the crud separator 1. When the reactor coolant is poured into the clad vessel 12 through the port 16, solids such as crud are left in the clad vessel 12, and the reactor coolant that has passed through the reactor is sent into the drain trap 13. In this drain trap 13, reactor cooling water which is a liquid component is captured. The liquid component contained in the gas is further separated, and only the gas component is sent from the gas discharge pipe 21 to the gas purifier 22, where it is sent to each of the above-mentioned filters, etc. Therefore, a process is performed to remove radioactive substances and the like contained in the gas.

Therefore, fixed objects such as radioactive crud are left in a shielded state in the crud container 12, and the reactor cooling water separated from the concentrated crud is passed through the drain trap 13 and the steam/water separator 14. The reactor cooling water can be collected and merged into the flow path of the coolant outlet 4, thereby reducing the consumption of reactor cooling water. Furthermore, even if the reactor cooling water separated from the crud contains gas, the gas is treated by the steam separator 14, the vacuum pump 15, and the gas purifier 22, and the radioactivity in the gas is Since the material is removed, it is possible to prevent the radioactive material from diffusing from the cladding extraction device.

In addition, the cladding stored in the cladding container 12 can be removed as shown by the solid line by pulling it in the direction of the arrow in the figure, and can be covered with a top cover to prevent radiation leakage and to be stored until the radiation dose is attenuated and reduced. Since the product is ready for transportation, subsequent handling is easy and safety during transportation can be improved.

As explained above, the crud extraction device according to the present invention is a device that extracts the concentrated crud separated from the reactor coolant by the crud separator and stores it in an isolated state. Since the cladding is housed in the radiation-shielding wall of the cladding container, which is attached to and detached from the cladding separation device by means of a connecting adapter, handling during processing such as transportation and storage can be improved.

Since the reactor cooling water separated from the enriched crud is separated from gas by a drain trap and a steam separator, it is possible to prevent gases such as radioactive substances from being contained in the reactor cooling water separated from the enriched crud. Even if there is a gaseous component, it is possible to easily perform processes such as suctioning and filtering only the gaseous component.

In this way, by separating and treating the gas content in the reactor coolant contained in the enriched crud, the health of the nuclear reactor power generation facility can be improved.

[Brief explanation of the drawing]

The drawing is a system diagram showing an embodiment of the present invention. DESCRIPTION OF SYMBOLS 1...Clad separation device, 3...Clad outlet, 10...Clad removal device, 11...Connection adapter, 12...Clad container, 13...Drain trap, 14...Steam water separator, 15... Vacuum pump, 16... Cladding connection port, 17... Discharge port, 19... Drain pipe, 21... Gas discharge pipe.

Claims (1)

[Scope of utility model registration request] A device for extracting concentrated crud separated from reactor coolant by a crud separator and storing it in an isolated state, comprising a crud connecting port for receiving the concentrated crud from the crud separating device and a crud connecting port. A connecting adapter having an independent discharge port, and a connecting adapter that is removably connected to the cladding connecting port and the discharge port from below, and filters the concentrated cladding dropped through the cladding connecting port. a cladding container that sends reactor coolant to the discharge port and stores the cladding from which the reactor coolant has been removed within a radiation shielding wall; a drain trap that is connected to the discharge port of the connection adapter and receives the reactor coolant; 1. A crud removal device comprising a steam separator connected downstream of a drain trap to separate and discharge gas contained in reactor coolant.