Dry radioactive substance storage facility

Induced nuclear reactions: processes – systems – and elements – Handling of fission reactor component structure within... – Storage container systems for new and/or irradiated core...

Reexamination Certificate

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Reexamination Certificate

active

06430248

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a dry radioactive substance storage facility and, more particularly, to a radioactive substance storage facility for storing radioactive substance including high-level radioactive wastes and radioactive substance produced in nuclear power plants.
Aggregate of radioactive substance used as fuel assemblies in a nuclear power plant is reprocessed to recover fissionable nuclear fuel substance including uranium and plutonium. High-level radioactive wastes resulting from the reprocessing of radioactive substance are vitrified. Since the vitrification of radioactive wastes generates decay heat, the vitrified radioactive wastes must be stored and cooled until the heat generation rate of the radioactive wastes decreases to an extent that permits disposal. Aggregate of radioactive wastes is kept in a storage pool in the nuclear power plant. The amount of aggregates of radioactive substance increases year by year and, eventually, exceeds the capacity of the storage pool of the nuclear power plant. Therefore, it is desired to construct a new storage facility capable of storing a large amount of aggregate of radioactive substance for a long time.
A dry radioactive substance storage facility stores vitrified radioactive wastes and aggregate of radioactive substance while cooling the same by air that flows around the same. Dry radioactive substance storage facilities are disclosed in Japanese Patent Laid-open Nos. Hei 5-273392 and Hei 8-43591.
The dry radioactive substance storage facility disclosed in Japanese Patent Laid-open No. Hei 5-273392 has a concrete building having partition walls of a radiation shielding substance and defining a storage room. Many storage tubes are placed in the storage room and aggregates of radioactive substance are contained in the storage tubes. Decay heat generated by the radioactive substance contained in the storage tubes is dissipated into cooling air for cooling. The cooling air flows horizontally through spaces between the storage tubes in a cooling air passage between the ceiling slab and the floor slab of the storage room.
The storage facility disclosed in Japanese Patent Laid-open No. Hei 8-43591 relates to a shielding structure.
The dry radioactive substance storage facility disclosed in Japanese Patent Laid-open No. Hei 8-43591 is characterized by the use of a heat-resistant resin for forming a structure for enclosing radioactive substance therein.
The dry radioactive substance storage facility disclosed in Japanese Patent Laid-open No. Hei 5-273392 has walls capable of shielding radioactive rays emitted by radioactive substance. However, nothing is mentioned in Japanese Patent Laid-open No. Hei 5-273392 about the improvement of radiation shielding ability.
In the dry radioactive substance storage facility disclosed in Japanese Patent Laid-open No. Hei 8-43591, some of structural members are formed of a substance capable of shielding radioactive rays. Therefore, the number of structures only for radioactive ray interception can be attenuate. However, nothing is mentioned in Japanese Patent Laid-open No. Hei 8-43591 about cooling ability.
In those prior art dry radioactive substance storage facilities, structure is discussed only on the basis of examination of cooling structure or shielding ability, and nothing is discussed on the interception of radioactive rays.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to provide a dry radioactive substance storage facility capable of improving radioactive ray shielding ability without significantly reducing cooling performance.
With the foregoing object in view, the present invention provides a dry radioactive substance storage facility comprising a plurality of first radiation shielding members disposed in a storage room on the side of an air inlet duct through which air is supplied into the storage room, a plurality of second radiation shielding members disposed in the storage room on the side of an stack through which air is discharged outside, in which first air passages are formed between the first radiation shielding members, and second air passages are formed between the second radiation shielding members.
The air inlet duct can be shielded from radioactive rays by the first radiation shielding members, and the stack can be shielded from radioactive rays by the second radiation shielding members. Accordingly, the amount of radiation reaching the outside through the air inlet duct and the stack is attenuate greatly, whereby the radiation shielding performance of the dry radioactive substance. storage facility is improved. Since air flows through spaces between the first and the second radiation shielding members, there is no possibility that the ability to cool the radioactive substance contained in the storage tubes is attenuate significantly.
Preferably, the first and the second radiation shielding members are arranged in a plurality of rows in the flowing direction of air, the first radiation shielding members in the row on the upstream side with respect to the flow of air are disposed opposite to spaces between the first radiation shielding members in the row on the downstream side with respect to the flow of air, and the second radiation shielding members in the row on the downstream side with respect to the flow of air are disposed opposite to spaces between the second radiation shielding members in the row on the upstream side with respect to the flow of air.
Since the first radiation shielding members in the row on the upstream side are disposed opposite to spaces between the first radiation shielding members in the row on the downstream side, the first radiation shielding members on the upstream side are able to intercept radiation through the spaces toward the air inlet duct. Since the second radiation shielding members in the row on the downstream side are disposed opposite to spaces between the second radiation shielding members in the row on the upstream side, the second radiation shielding members on the downstream side are able to intercept radiation propagating through the spaces toward the stack. Thus, the dry radioactive substance storage facility has a further improved radiation shielding ability.
Preferably, the first radiation shielding members are thermally connected to storage tubes on the upstream side of the storage tubes, and the second radiation shielding members are thermally connected to the storage tubes on the downstream side of the storage tubes. Since the radiation shielding members are thermally connected to the storage tubes, the radiation shielding members are cooled by air. Consequently, the reduction of cooling ability due to the partial covering of the storage tubes with the radiation shielding members can be avoided.
Preferably, a plurality of first baffling members are disposed on the side of the air inlet duct in the storage room, a plurality of second baffling members are disposed on the side of the stack in the storage room, and each of the first and the second baffling members comprises a neutron shielding member and a gamma ray shielding member. The first baffling members exercise the same function as the first radiation shielding members, and the second baffling members exercise the same function as the second radiation shielding members. The first and the second baffling members are capable of shielding neutrons and gamma rays.
Preferably, the first and the second baffling members are formed by covering a neutron shielding member. with a gamma ray shielding member. Since the neutron shielding member is covered with the gamma ray shielding member, the gamma ray shielding member can easily be attached to the neutron shielding member.
Preferably, upper ones of the plurality of the second baffling members overlap more deeply and are dislocated more greatly toward the stack. Since upper ones of the plurality of the second baffling members overlap more deeply and are dislocated more greatly toward the stack, radiation propagating toward the stack are intercepted by the

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