IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0914646
(2001-12-19)
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국제출원번호 |
PCT/JP99/05333
(1999-09-29)
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국제공개번호 |
WO01/24199
(2001-04-05)
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발명자
/ 주소 |
- Aoki, Masataka
- Adachi, Takahiro
- Kobayashi, Katsumi
- Kuroha, Mitsuo
- Izumi, Kazunori
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
9 |
초록
▼
A method of carrying equipment out of a nuclear reactor building that, in carrying equipment rendered radioactive out of a nuclear reactor building, makes it possible to shorten the operating time and reduce the number of casks to be used, wherein the structures of a nuclear power plant that are out
A method of carrying equipment out of a nuclear reactor building that, in carrying equipment rendered radioactive out of a nuclear reactor building, makes it possible to shorten the operating time and reduce the number of casks to be used, wherein the structures of a nuclear power plant that are outside the equipment installed in the nuclear power plant are removed and these removed structures are then stored in the space in the equipment and carried out of the building.
대표청구항
▼
1. A method for carrying out a nuclear reactor vessel, comprising: removing piping connected to said nuclear reactor vessel which is disposed in a building containing a nuclear reactor in air; inserting said piping into water present in an inner portion of said nuclear reactor vessel; draini
1. A method for carrying out a nuclear reactor vessel, comprising: removing piping connected to said nuclear reactor vessel which is disposed in a building containing a nuclear reactor in air; inserting said piping into water present in an inner portion of said nuclear reactor vessel; draining said water; and carrying said nuclear reactor vessel in which said piping is received in an inner portion out of said building. 2. A method according to claim 1, further comprising storing said nuclear reactor vessel at a storage location, after being carried out from said building.3. A method according to claim 1, further comprising covering said nuclear reactor vessel with a radioactive shield when said nuclear reactor vessel is carried out from said building.4. A method according to claim 3, further comprising setting an upper lattice plate vertically in a reactor core shroud surrounding said reactor core in said nuclear reactor vessel, said upper lattice plate being used to hold an upper part of a fuel assembly loaded in said reactor core; and carrying said removed piping into said reactor core shroud through a gap between said upper lattice plate and said reactor core shroud.5. A method according to claim 4, wherein said upper lattice plate is removed from said reactor core shroud surrounding said reactor core in said nuclear reactor vessel and carried out from said nuclear reactor vessel, said removed piping being carried into said reactor core shroud, said upper lattice plate being returned again to said reactor core shroud after a predetermined quantity of said piping is carried in, then another removed structure is placed on said upper lattice plate.6. A method according to claim 1, further comprising plugging a joint between said nuclear reactor vessel and said piping while filling up reactor water to a position above said joint of said piping with said nuclear reactor vessel; cutting off said piping outside said nuclear reactor vessel; and closing said cut-off portion of said piping with a closing member. 7. A method according to claim 1, wherein a reactor water level in said nuclear reactor vessel is lowered to a position below a joint of said piping with said nuclear reactor vessel, and cutting off said piping outside a reactor shield surrounding said nuclear reactor vessel; inserting a sealing member in said piping from said cut-off portion, thereby sealing said joint; raising said reactor water level to a position above said joint; cutting off said piping inside said shield of said reactor and outside said nuclear reactor vessel; and attaching a closing member to said cut-off portion of said piping. 8. A method for carrying out the equipment of a nuclear power plant according to claim 1; wherein a pipe between an inlet mixer and said reactor pressure vessel is closed while said reactor water level is above a jet pump in said reactor pressure vessel and said inlet mixer is removed from said jet pump; and a closing member is attached to said portion of a recirculation system pipe cut off outside said reactor pressure vessel from outside of said reactor pressure vessel. 9. A method for carrying out the equipment of a nuclear power plant according to claim 6; wherein a fluid hardening agent is injected in an elastic bag inserted in a joint between said reactor pressure vessel and said pipe, thereby blowing up said elastic bag so as to close said joint.10. A method for carrying out the equipment of a nuclear power plant according to claim 6; wherein water is injected in an elastic bag in which water absorbent is filled, said elastic bag being inserted in a joint between said reactor pressure vessel and said pipe, thereby blowing up said elastic bag so as to close said joint.11. A method for carrying out the equipment of a nuclear power plant according to claim 6; wherein a gas or a mixture of a gas and low density mortar is injected in an elastic bag provided with a check-valve, said elast ic bag being inserted in a joint between said reactor pressure vessel and said pipe, thereby blowing up said elastic bag so as to plug said joint.12. A method for carrying out a nuclear reactor vessel, comprising: removing piping connected to said nuclear reactor vessel which is disposed in a building containing a nuclear reactor in air; inserting said piping into said nuclear reactor vessel for draining water; and carrying said nuclear reactor vessel in which said piping is received in said inner portion out of said building. 13. A method for carrying out a nuclear reactor vessel, comprising: placing outside piping of a nuclear power plant in an inner space of said nuclear reactor vessel which contains water; and carrying out said nuclear reactor vessel together with said removed piping placed therein out of a building in which said nuclear reactor vessel has been disposed in air. 14. A method for carrying out a nuclear reactor vessel, comprising: securing a space for receiving outside piping connected to said nuclear reactor vessel by taking out inner portion structures from said nuclear reactor vessel which is provided in a building; removing said piping from said nuclear reactor vessel in air; receiving said removed piping in water existing in said space in said nuclear reactor vessel; and carrying out said nuclear reactor vessel in which said piping is received out of said building. 15. A method according to claim 14, wherein: said piping is operatively connected to said nuclear reactor vessel. 16. A method according to claim 14, further comprising: covering said nuclear reactor vessel with a radioactive ray shield body before carrying out said nuclear reactor vessel from said building. 17. A method according to claim 16, wherein: said piping is operatively connected to said nuclear reactor vessel. 18. A method according to claim 14, further comprising: setting vertically, in a reactor core shroud in said nuclear reactor vessel, an upper portion lattice plate for holding an upper end portion of a fuel assembly body which is loaded to said reactor core; and through a gap between said upper portion lattice plate and said reactor core shroud, receiving said removed pipings in said reactor core shroud. 19. A method according to claim 14, further comprising: carrying out said upper portion lattice plate outside said nuclear reactor vessel by taking off said upper portion lattice plate from said reactor core shroud in said nuclear reactor vessel; receiving said removed piping in said reactor core shroud; after a predetermined quantity of said piping has been received, installing said upper portion lattice plate in said reactor core shroud; and mounting removed other outside structures on said upper portion lattice plate. 20. A method according to claim 17, further comprising: under a condition where reactor water in said nuclear reactor vessel is filled up to a position above a connection portion, plugging a connection portion between said reactor pressure vessel and said piping; cutting off said piping outside said nuclear reactor vessel; and closing said cut-off portion by a closing member. 21. A method according to claim 17, further comprising: under a condition where a water level of reactor water in said nuclear reactor vessel is lowered to a position below a connection portion of said piping, cutting off said piping outside a reactor shield body for surrounding said nuclear reactor vessel; inserting a sealing member to said piping from said cut-off portion; sealing said cut-off portion; raising said water level of said reactor core to a position above said connection portion; cutting off said piping a position of an inside of said reactor shield body and of an outside of said nuclear reactor vessel; and installing a closing member at said cut-off portion. 22. A method according to claim 17, further comprising: under a condition where a water level of the reactor water is positioned above from a jet pump in said nuclear reactor vessel and where an inlet mixer of said jet pump is removed, shielding piping between said inlet mixer and said nuclear reactor vessel; and outside of said nuclear reactor vessel, at a portion in which a re-circulation system piping is cut off, installing a closing member from outside said nuclear reactor vessel. 23. A method according to claim 20, further comprising: injecting a fluidization hardening agent into an elastic bag which is inserted to a connection portion between said nuclear reactor vessel and said piping; expanding said elastic bag; and shielding said connection portion. 24. A method according to claim 20, further comprising: injecting water into a elastic bag in which water absorption agent is filled up, inserting said elastic bag to a connection portion between said nuclear reactor vessel and said piping; expanding said elastic bag; and shielding said connection portion. 25. A method according to claim 20, further comprising: injecting a gas or a mixture of a gas and a low density mortar into an elastic bag provided with a gaseous check valve which is inserted to a connection portion between said nuclear reactor vessel and said piping, expanding said elastic bag; and shielding said connection portion. 26. A method according to claim 14, wherein: at least one of a bulk head plate, a fuel exchange bellows, and PCV stabilizer are also removed. 27. A method for carrying out a steam generator, comprising: securing a space for receiving piping existing outside a steam generator by taking out inner portion structures from said steam generator which is provided in a building; removing said piping in air; receiving said removed piping in water existing in said space in said steam generator; and carrying out said steam generator in which said piping is received from said building. 28. A method according to claim 27, further comprising: after said steam generator has been carried out from said building, storing said steam generator.
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