KR101599744B1 - Cylindrical Modular Type Dry Storage System and method for Pressurized Water Reactor Spent Nuclear Fuel - Google Patents

Abstract

The present invention relates to the use of high-radioactivity spent fuel produced during the operation of a light-water nuclear power plant in accordance with the national nuclear safety regulations, the International Atomic Energy Agency (IAEA) US 10 CFR Part 72, And to provide a cylindrical modular light-water reactor fuel dry storage method in which the storage capacity is increased as much as possible and the area required for storage is minimized.
In order to accomplish the above object, the present invention provides a method for dry-stored nuclear fuel for a light water reactor, comprising a reinforced concrete having a predetermined diameter and a predetermined length, a plurality of air inlets (40) A plurality of air outlets 42 are formed, and seven canisters having a diameter of 8.3 m, a length of 5.9 m, and a thickness of 1.1 m, which are filled with light-water spent fuel in the storage module 10, 20 are installed at the same time and the upper end of the storage module 10 is covered with the cover of the steel module 30 so as to be shielded from the outside so that one storage module 10 is continuously arranged, .

Description

Technical Field [0001] The present invention relates to a cylindrical modular type dry storage system, and more particularly,

The present invention relates to a cylindrical modular light-water reactor spent fuel storage method, and more particularly, to a cylindrical modular type storage unit for storing a spent fuel generated from a light-water nuclear power plant as safe as possible, The present invention relates to a method of dry-spent nuclear fuel storage in light water reactors.

Generally, in the case of foreign countries, various types of light water reactor spent fuel dry storage systems have been used since the 1980s to store spent fuel in or on the site of a nuclear power plant.

Here, the dry storage system that is being developed and licensed is classified into a circular storage vessel system and a rectangular horizontal storage system. In the case of an electron-in-circular storage vessel system, a single cylindrical storage vessel is used with a single canister , And the rectangular horizontal storage method is a method of storing the spent fuel in a single rectangular storage container by horizontally loading one canister.

Here, since the circular storage vessel system and the rectangular storage vessel system described above are installed vertically and horizontally, there is a problem that the area required for storage is relatively wide.

Japanese Unexamined Patent Application Publication No. 2002-022881 (Mar. 23, 2002) Japanese Patent Publication No. 2013-533958 (2013.08.29.)

Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a nuclear reactor having high radioactivity, which is generated during operation of a light-water nuclear power plant, 72 dry fuel storage method in accordance with the technical standards of domestic and foreign spent fuel dry storage regulations and to minimize the storage area required for storage and increase the storage capacity. It has its purpose.

In order to accomplish the above object, the present invention provides a method for dry-stored nuclear fuel for a light water reactor, comprising a reinforced concrete having a predetermined diameter and a predetermined length, a plurality of air inlets (40) A plurality of air outlets 42 are formed, and seven canisters having a diameter of 8.3 m, a length of 5.9 m, and a thickness of 1.1 m, which are filled with light-water spent fuel in the storage module 10, 20 are installed at the same time and the upper end of the storage module 10 is covered with the cover of the steel module 30 so as to be shielded from the outside so that one storage module 10 is continuously arranged, .

As described above, the cylindrical modular light-water reactor spent fuel dry storage method can secure safety by satisfying the technical standards according to domestic and overseas spent fuel dry storage regulations, and can be used for the first time in dry- This is an economical storage method that enhances the site efficiency by applying vertical modular large capacity dry storage system. The application of this dry storage method has the following effects.

First, the present invention can save economically and safely the large-capacity, economical and safe storage space of the light-water reactor spent fuel by reducing the required storage area and maximizing the storage efficiency in a nuclear power plant site having a limited area.

Second, the present invention satisfies the technical standards of domestic and foreign dry storage regulations, secures safety for dry storage of spent nuclear fuel, and contributes to improvement of the reliability of the public.

FIG. 1A is a perspective view showing a three-canister cylindrical modular light rail spent fuel dry storage system according to the present invention,
FIG. 1B is a plan view showing a three-canister cylindrical modular light rail spent fuel dry storage system according to the present invention. FIG.
1C is a cross-sectional view illustrating a three-canister cylindrical modular light rail spent fuel dry storage system according to the present invention,
FIG. 2A is a perspective view showing a seven-canister cylindrical modular light rail spent fuel dry storage system according to the present invention,
FIG. 2B is a plan view showing a seven-canister cylindrical modular light rail spent fuel dry storage system according to the present invention. FIG.
FIG. 2C is a cross-sectional view of a seven-canister cylindrical modular light rail spent fuel dry storage system in accordance with the present invention. FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

[First Embodiment]

FIG. 1A is a perspective view showing a three-canister cylindrical modular light-water reactor fueled dry storage system according to the present invention, FIG. 1B is a plan view showing a three-canister cylindrical modular light- And FIG. 1C is a cross-sectional view showing a three-canister cylindrical modular light rail spent fuel dry storage system according to the present invention.

As shown in these drawings, the cylindrical modular light water reactor spent fuel dry storage system (S) according to the present invention comprises: a storage module (10) made of reinforced concrete having a predetermined diameter and length; A canister (20) installed in the storage module (10) and having a predetermined diameter and length and loaded with a light fuel spent fuel; And a module lid 30 covering the upper end of the storage module 10 so as to shield it from the outside.

In addition, three canisters (20) are installed in the storage module (10).

A plurality of air inlets 40 are formed in the lower portion of the storage module 10, and a plurality of air outlets 42 are formed in the upper portion.

That is, the cylindrical modular light-water reactor spent fuel dry storage system S according to the present invention is a system in which the storage module 10, the canister 20, and the module lid 30 are organically coupled.

Here, the storage module 10 forms the entire structure from the reinforced concrete material, protects the canister 20 installed therein, and shields the radiation from the spent fuel inside.

The air inlet 40 and the air outlet 42 formed in the lower part and the upper part of the storage module 10 can be effectively cooled by natural convection cooling according to the requirements of domestic and foreign dry storage regulations requiring passive cooling system. Cooling air enters through the lower air inlet 40 of the storage module 10 to cool the decay heat generated from the spent fuel loaded in the canister 20 and to cool the upper portion of the storage module 10 The hot air is discharged to the air outlet 42 of the air conditioner.

Three of the canisters 20 are installed in the storage module 10 and are composed of a diameter of about 6.3 m, a length of about 5.9 m, and a thickness of about 0.9 m, in which three light-water reactor spent fuel canisters 20 are vertically arranged do.

The module lid 30 is a steel member that opens and closes the upper part of the storage module 10 to allow the canister 20 to enter and exit and to prevent radiation shielding and radioactive material leakage.

[Second Embodiment]

FIG. 2A is a perspective view showing a seven-canister cylindrical modular light rail spent fuel dry storage system according to the present invention, and FIG. 2B is a plan view showing a seven-canister cylindrical modular light rail spent fuel dry storage system according to the present invention. And FIG. 2C is a cross-sectional view illustrating a seven-canister cylindrical modular light rail spent fuel dry storage system according to the present invention.

As shown in these drawings, the cylindrical modular light water reactor spent fuel dry storage system (S) according to the present invention comprises: a storage module (10) made of reinforced concrete having a predetermined diameter and length; A canister (20) installed in the storage module (10) and having a predetermined diameter and length and loaded with a light fuel spent fuel; And a module lid 30 covering the upper end of the storage module 10 so as to shield it from the outside.

Also, seven canisters (20) are installed in the storage module (10).

A plurality of air inlets 40 are formed in the lower portion of the storage module 10, and a plurality of air outlets 42 are formed in the upper portion.

That is, the cylindrical modular light-water reactor spent fuel dry storage system S according to the present invention is a system in which the storage module 10, the canister 20, and the module lid 30 are organically coupled.

Here, the storage module 10 forms the entire structure from the reinforced concrete material, protects the canister 20 installed therein, and shields the radiation from the spent fuel inside.

The air inlet 40 and the air outlet 42 formed in the lower part and the upper part of the storage module 10 can be effectively cooled by natural convection cooling according to the requirements of domestic and foreign dry storage regulations requiring passive cooling system. Cooling air enters through the lower air inlet 40 of the storage module 10 to cool the decay heat generated from the spent fuel loaded in the canister 20 and to cool the upper portion of the storage module 10 The hot air is discharged to the air outlet 42 of the air conditioner.

Seven of the canisters 20 are installed in the storage module 10 and are composed of a diameter of about 8.3 m, a length of about 5.9 m, and a thickness of about 1.1 m, in which seven light-water reactor fuel canisters 20 are arranged vertically do.

The module lid 30 is a steel member that opens and closes the upper part of the storage module 10 to allow the canister 20 to enter and exit and to prevent radiation shielding and radioactive material leakage.

The cylindrical modular light-water reactor spent fuel dry storage system method according to the present invention having the above-described structure is a method of vertically installing three or seven canisters 20 in the storage module 10, It is possible to further increase the number of storage modules 10 and to store a large amount of spent nuclear fuel. In addition, it is possible to efficiently save the storage space compared to the conventional method in preparation for the same amount of storage.

The cylindrical modular light-water reactor spent fuel dry storage system (S) according to the present invention shares the shielding structure required for the storage module (10) to reduce the structure thickness of the storage system and further reduce the area required for storage So that site efficiency can be increased.

In particular, utilization is advantageous in a limited area of a nuclear power plant.

In the cylindrical modular light-water reactor spent fuel dry storage method according to the present invention, the storage area of the same capacity is about 1.3 times as large as that of the three-canister 20 and about 1.8 times as large as that of the seven- Using a cylindrical modular storage system can significantly increase site efficiency.

The cylindrical modular light-water reactor spent fuel dry storage method is advantageous in that the radiation shielding structure applied to a single container or a single module is installed in one module only in a cavity, so that the structural material is reduced and the arrangement area of the storage canister 20 is reduced It is very economical.

The cylindrical modular light-water reactor spent fuel storage method satisfies the technical standards for normal, abnormal, accidents and natural disaster conditions of domestic and overseas spent fuel dry storage regulations, and is used for nuclear criticality, radiation shielding, , It is possible to secure the safety to protect human and environment from the risk of radiation by making the structure to be able to maintain the structural integrity and to apply the natural convection cooling method for heat removal and to increase the rigidity of the structure And the bulk module method capable of storing large capacity by reducing the area required for storage has been introduced into the dry fuel spent fuel dry storage method.

10: storage module 20: canister
30: Module lid 40: Air inlet
42: air outlet
S: Cylindrical modular light water reactor spent fuel storage system

Claims (2)

delete A plurality of air inlets 40 are formed in a lower portion of the reinforced concrete having a predetermined diameter and a length and a plurality of air outlets 42 are formed in an upper portion thereof and a storage module 10 Seven canisters 20 having a diameter of 8.3 m, a length of 5.9 m, and a thickness of 1.1 m loaded with light-water reactor spent fuel are vertically installed at the same time, and the upper end of the storage module 10 is connected to a cover (30) to shield from the outside, and one additional storage module (10) can be continuously arranged to be additionally installed.

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