RU127233U1 - POOL NUCLEAR REACTOR - Google Patents

Abstract

1. Basin nuclear reactor containing a pool of water, in which the core and operating elements of the control and protection system are located, connected to drives located under the bottom of the reactor, characterized in that the reactor is equipped with a reservoir for collecting radioactive water leaks, which is installed under the bottom basin and is hermetically connected to it, while the drives are placed in the said reservoir. 2. Pool nuclear reactor according to claim 1, characterized in that the reservoir is made with a volume of not more than 1% of the volume of the reactor pool. Pool nuclear reactor according to claim 2, characterized in that the reservoir is made of two parts, upper and lower, which are hermetically and detachably connected to each other. The pool nuclear reactor according to claim 3, characterized in that an opening is made in the lower part of the tank for the removal of radioactive water.

Description

The utility model relates to the field of nuclear engineering, namely to basin nuclear reactors.

The closest set of essential features to a utility model is a basin-wide nuclear reactor containing a pool of water, in which the core and operating bodies of the control and protection system are located, connected to drives located under the bottom of the pool (Express information “Series” Research nuclear reactors "", Issue 1, 2006, pp. 9-10).

A disadvantage of the known nuclear reactor is the possibility of radioactive water entering from the pool under its bottom into the subreactor space in the event of a leak in the connection between the drives and the reactor pool, which will lead to a decrease in radiation safety. In addition, with large water leaks, it becomes possible to drain the core and, as a consequence, an emergency.

The objective of this utility model is to create a basin-wide nuclear reactor with a high level of safety.

The technical result of the utility model is to prevent the ingress of radioactive water from the reactor pool under its bottom into the subreactor space and the possibility of draining the core.

The specified technical result is achieved by the fact that the known basin nuclear reactor containing a pool of water, which houses the active zone and the working bodies of the control and protection systems connected to drives located under the bottom of the reactor,

according to the claimed utility model, the reactor is equipped with a reservoir for collecting leaks of radioactive water, which is installed under the bottom of the pool and hermetically connected to it, while the drive is located in the said tank.

In addition, the tank is made with a volume of not more than 1% of the volume of the reactor pool.

In addition, the tank is made of two parts, upper and lower, which are hermetically and detachably interconnected.

In addition, in the lower part there is a hole for the removal of radioactive water.

Placing the drives in the tank located under the bottom of the pool and hermetically connected to it eliminates the ingress of radioactive water from the pool into the subreactor space in the event of a leak in the connection between the drives of the working bodies of the CPS and the pool, since all radioactive water will be delayed in the tank during leakage.

A tank with a volume of not more than 1% of the volume of the reactor pool, if completely filled, prevents drainage of the core.

The split tank design allows each drive to be serviced and dismantled individually.

The presence of a hole in the lower part of the tank allows the removal of radioactive water from the tank.

The essence of the utility model is illustrated by the drawing, which shows a basin-wide nuclear reactor (longitudinal section).

Basin nuclear reactor contains a pool of water 1, which houses the active zone 2 and the working bodies 3 of the control and protection system. Under the bottom of the pool 1 in the subreactor space, the ceiling of which has a steel lining, there are drives 4 of the working bodies 3 of the control and protection system and a tank 5 with a volume of not more than 1% of the volume of the reactor pool 1. The drives 4 are located in the tank 5. The tank 5 consists of two parts, top and bottom. The upper part of the tank 5 is hermetically connected to the steel lining of the ceiling part of the subreactor room, for example by welding, and has a hermetic detachable connection, for example, flange, with the lower part. A hole is made in the bottom of the tank 5, into which it is possible to install a fitting 6 for connection with the pipeline, if necessary, to drain water from the tank.

Basin nuclear reactor operates as follows. The working bodies 3 of the control and protection systems for reactivity control are introduced into the active zone 2 from above by means of actuators 4 located under the bottom of the pool 1 in the subreactor space. In the event of a leak in the connection of the actuators 4 with the pool 1, a leak of radioactive water appears, which accumulates in the tank 5, which excludes its direct contact with the subreactor space. At the same time, tank 5 with a volume of not more than 1% of the volume of the reactor pool, when completely filled, allows maintaining the water level in pool 1 at the level necessary for cooling the core 2 and eliminates its drainage. From the tank 5, water is removed through the hole in which the nozzle 6 is installed, through the pipeline to the leakage control tank (not shown in the drawing). The detachable design of the tank 5 allows you to service and dismantle each of the actuators 4 separately, which is achieved by disconnecting the bottom of the tank from the top.

The exclusion of radioactive water from entering the subreactor space in the event of a leak in the connection between the drives and the reactor pool and the drainage of the active zone favorably affects the radiation environment, and, consequently, the safety of using a nuclear reactor.

Claims (4)

1. Basin nuclear reactor containing a pool of water, which houses the active zone and the working bodies of the control and protection systems connected to drives located under the bottom of the reactor, characterized in that the reactor is equipped with a reservoir for collecting leaks of radioactive water, which is installed under the bottom pool and hermetically connected to it, while the actuators are located in the said tank. 2. Basin nuclear reactor according to claim 1, characterized in that the tank is made with a volume of not more than 1% of the volume of the reactor pool. 3. Basin nuclear reactor according to claim 2, characterized in that the tank is made of two parts, upper and lower, which are hermetically and detachably interconnected. 4. Basin nuclear reactor according to claim 3, characterized in that in the lower part of the tank a hole is made for the removal of radioactive water.

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