CZ2022459A3 - A modular pressurized water nuclear reactor - Google Patents

Abstract

A modular pressurized water nuclear reactor containing a pressurized outer vessel (2) of the reactor in which is placed a hermetically sealed inner vessel (1) of the primary circuit, inside which is an active zone with fuel cells. The external pressure vessel (2) of the reactor is equipped with a lid. In place of the lid, a mobile container (3) with a battery (4) of nuclear fuel is placed, equipped with water inlets and outlets (6) and on its bottom with sealing elements (5) with an external pressure vessel (2) of the reactor and an opening lower hatch (7) for insertion and extraction of the nuclear fuel battery (4) from the inner container (1) of the primary circuit. At the ceiling of the container (3) there is a cross member (8) with locking pins (9) for attaching the nuclear fuel battery (4). The traverse (8) is connected to the winch (10) with the control module (11).

Description

The invention relates to a modular pressurized water nuclear reactor using low-enriched nuclear fuel for heat production with an expected electrical output of 2 to 100 MW.

Current state of the art

From technical practice, various solutions for nuclear reactors are known, which are of the pressurized water type, mostly have forced cooling of the core, and the fuel is replaced in the standard way as in large reactors.

No solution has been found that would allow extensive unification of power ranges.

The essence of the invention

The above-mentioned shortcomings are largely eliminated by a modular pressurized water nuclear reactor, comprising a pressure outer vessel of the reactor, in which is placed a hermetically sealed inner vessel of the primary circuit (NIO), inside which is an active zone with fuel cells, and the pressure outer vessel of the reactor is provided with a lid, according to this invention. Its essence is that a mobile container with a nuclear fuel battery is placed in place of the lid, equipped with water inlets and outlets, and on its bottom with sealing elements with a pressurized outer vessel of the reactor and an opening lower hatch for inserting and removing the nuclear fuel battery from the inner container of the primary circuit. At the ceiling of the container, there is a traverse with locking pins for the nuclear fuel battery, connected to a winch with a control module. The container is preferably equipped with a cooling system.

The essence of the solution is a relocatable mobile container with a battery of nuclear fuel, which is equipped with sealing elements between the inner container of the primary circuit (NIO). The container is equipped with a lid with sealing on its bottom. The lid is pulled inside the container. The automatic mechanism of the lower hatch always closes it, while it is necessary to develop a counter force to open it.

The container includes a flanged connection for drainage and water supply for filling and draining. The design of the container enables post-cooling, i.e. heat removal from the nuclear fuel battery using water circulation and a system of fins. On the top lid of the container there is a module with a winch for inserting and picking up the nuclear fuel battery.

The container is removable and replaceable with another top lid module. For example, for transport outside the block.

A traverse is used to pull in the nuclear fuel battery, which is lowered using a winch and secured by guides on the inner walls of the NIO. The traverse will be secured to the top of the nuclear fuel cell using retractable locking pins. There are attachment points on the top of the nuclear fuel cell.

The nuclear fuel cell is inserted into the protective cylinder and is secured by mechanical pins at the top and bottom.

Work does not take place in flooded fuel exchange pools.

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The advantage of this solution is that there is no contamination of the water in the construction shafts of the fuel exchange, thus the volume of contaminated water will be significantly reduced. No water purification systems are needed. There is no need for switches between the individual pools and there is no need to solve the problem of sealing the switches. There is no leakage of activity into other areas of the block. There is no need for a loading machine to handle fuel cartridges directly on the block.

Clarification of drawings

The modular pressurized water nuclear reactor according to the present invention will be described in more detail with the help of the attached drawing, where an exemplary modular pressurized water nuclear reactor with a container for a nuclear fuel battery is schematically shown in section in Fig. 1.

Examples of implementation of the invention

An exemplary modular pressurized water nuclear reactor contains a pressurized outer vessel 2 of the reactor, in which is placed a hermetically sealed inner vessel 1 of the primary circuit, inside which is an active zone with fuel cells. The external pressure vessel 2 of the reactor is equipped with a lid. A mobile container 3 with a nuclear fuel battery 4 equipped with water inlets and outlets 6 is placed in place of the lid. At its bottom, the container 3 is provided with sealing elements 5 with the pressure outer vessel 2 of the reactor. Furthermore, on its bottom, the container 3 is provided with an opening lower hatch 7 for inserting and removing the battery 4 of nuclear fuel from the inner container 1 of the primary circuit. At the ceiling of the container 3, there is a traverse 8 with locking pins 9 for fixing the nuclear fuel battery 4, connected to the winch 10 with the control module 11. The container 3 is equipped with a cooling system 12. The lower cover 7 of the container 3 is equipped with an automatic closing mechanism.

An exemplary small modular reactor is a pressurized water nuclear reactor, the characteristic feature of which is the presence of an additional closed coolant circulation circuit. The weight of the reactor with fuel is approx. 323 t. The height of the reactor without control rod drives is approx. 13 m. The maximum diameter without nozzles is 4350 mm.

Structurally, the reactor consists of a pressurized outer vessel 2 of the reactor and a hermetic inner vessel 1 of the primary circuit. The external pressure vessel 2 of the reactor consists of a vertical cylindrical high-pressure vessel with inlet nozzles and outlet nozzles for the material and a bottom. The shell material is high quality structural alloy steel, usually 15Cr2NiMoVA or equivalent. The inner surface of the body and flanges is covered with a corrosion-resistant surface treatment. The geometry of the inner part of the external pressure vessel 2 of the reactor ensures the organization of the coolant flow of the secondary circuit.

It operates a modular pressurized water nuclear reactor equipped with a lid. After it has been shut down, the lid can be removed, i.e. the upper block is dismantled and the block of protective pipes is taken out. Then, the container 3 without the nuclear fuel battery 4 is placed on the pressure outer vessel 2 of the reactor and sealed to the pressure outer vessel 2 of the reactor and the inner vessel 1 of the primary circuit. After that, the lower cover 7 of the container 3 is opened. Water is poured into the container 3 through the flange connection of the inlet and outlet 6. The traverse 8 is lowered using the winch 10 located in the upper lid of the container 3. The traverse 8 is secured with the help of retractable locking pins 9 to the upper part of the battery 4 nuclear fuel via anchor points. The battery 4 of nuclear fuel is drawn into the container 3. The lower cover 7 of the container 3 is closed. Subsequently, the container 3 with the nuclear fuel battery 4 is transferred to the spent fuel pool.

Subsequently, a container 3 with a battery 4 of fresh nuclear fuel is placed on the external pressure vessel 2 of the reactor, it is sealed again, the lower cover 7 of the container 3 is opened, the securing

-2CZ 2022 - 459 A3 flails 9, which hold the battery 4 of nuclear fuel in the container 3 and the battery 4 of fresh nuclear fuel are lowered into the location of the active zone. After that, the traverse 8 is detached from the battery 4 of fresh nuclear fuel, the traverse 8 is pulled out and the lid 7 of the container 3 is closed. The empty container 3 is placed in a storage place. A block of protective pipes is brought in and the upper block is set up. The reactor is thus ready for further operation.

Industrial applicability The modular pressurized water nuclear reactor according to this invention will find application primarily as a backup source of electrical energy in municipal energy, in the production of electrical energy and heat, as a stable ecological source of heat and energy.

Claims (3)

1. A modular pressurized water nuclear reactor, comprising a pressurized outer vessel (2) of the reactor, in which is placed a hermetically sealed inner vessel (1) of the primary circuit, inside which is an active zone 5 for a battery (4) of nuclear fuel, characterized in that on at the upper end of the pressure outer vessel (2) there is a mobile container (3) with a battery (4) of nuclear fuel, equipped with water inlets and outlets (6) and on its bottom with sealing elements (5) with the pressure outer vessel (2) of the reactor and an opening the lower hatch (7) for inserting and extending the battery (4) of nuclear fuel, while at the ceiling of the mobile container (3) there is a traverse (8) with locking pins (9) for holding the battery (4) of nuclear fuel, connected to the winch ( 10) with control module (11). 2. A modular pressurized water nuclear reactor according to claim 1, characterized in that the mobile container (3) is equipped with a cooling system (12). 3. A modular pressurized water nuclear reactor according to claim 1 or 2, characterized in that the lower cover (7) is equipped with an automatic closing mechanism.