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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0340833 (2008-12-22) |
등록번호 | US-8116423 (2012-02-14) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 1 인용 특허 : 323 |
The invention relates to light water reactor designs in which thorium is used as fuel and in particular to designs of jacketless fuel assemblies, which make up the cores of pressurized water reactors (PWRs) such as the VVER-1000. Nuclear reactor cores containing seed and blanket subassemblies that m
The invention relates to light water reactor designs in which thorium is used as fuel and in particular to designs of jacketless fuel assemblies, which make up the cores of pressurized water reactors (PWRs) such as the VVER-1000. Nuclear reactor cores containing seed and blanket subassemblies that make up the fuel assemblies are used to burn thorium fuel together with conventional reactor fuel that includes nonproliferative enriched uranium, as well as weapons-grade and reactor-grade plutonium. In the first alternative, the reactor core is fully “nonproliferative,” since neither the reactor fuel nor the wastes generated can be used to produce nuclear weapons. In the second version of the invention, the reactor core is used to burn large amounts of weapons-grade plutonium together with thorium and provides a suitable means to destroy stockpiles of weapons-grade plutonium and convert the energy released to electric power. The cores in both embodiments of the invention are made up of a set of seed-blanket assemblies, which have central seed areas surrounded by annular blanket areas. The seed areas contain uranium or plutonium fuel rods, while the blanket areas contain thorium fuel rods. The volume ratio of moderator to fuel and the relative sizes of the seed area and the blanket area have been optimized so that neither embodiment of the invention generates wastes that can be used to produced nuclear weapons. A new refueling system is also used for the first embodiment of the invention to maximize recycling of the seed fuel; the system also ensures that the spent nuclear fuel cannot be used to produce nuclear weapons.
1. A fuel assembly for use in a nuclear reactor, the fuel assembly comprising: a seed subassembly comprising a seed frame and a plurality of seed fuel elements supported by the seed frame;a blanket subassembly comprising a blanket frame and a plurality of blanket fuel elements supported by the blank
1. A fuel assembly for use in a nuclear reactor, the fuel assembly comprising: a seed subassembly comprising a seed frame and a plurality of seed fuel elements supported by the seed frame;a blanket subassembly comprising a blanket frame and a plurality of blanket fuel elements supported by the blanket frame; anda locking mechanism selectively movable between and locked positions to releasably lock the seed and blanket frames together,wherein the seed subassembly is detachable from the blanket frame when the locking mechanism is in a released position,wherein the locking mechanism locks the seed and blanket frames together when in the locked position, andwherein the locking mechanism is in the locked position and the fuel assembly is not disposed inside of a nuclear reactor. 2. The fuel assembly of claim 1, wherein the blanket subassembly laterally surrounds the seed subassembly. 3. The fuel assembly of claim 2, wherein the blanket subassembly comprises a central opening into which the seed subassembly fits. 4. The fuel assembly of claim 1, wherein the plurality of seed fuel elements comprise fissionable material, and wherein the plurality of blanket fuel elements comprise thorium. 5. The fuel assembly of claim 1, wherein the locking mechanism comprises: at least one ball that is movable between first and second positions, wherein the first position is a position in which the at least one ball permits the seed and blanket frames to detach from each other, and wherein the second position is a position in which the at least one ball physically prevents the seed and blanket frames from detaching from each other; anda locking element that is movable between locking and releasing positions,wherein the locking position is a position the locks the at least one ball in the second position, which locks the seed and blanket frames together and defines the locked position of the locking mechanism, andwherein the releasing position is a position that permits the at least open ball to move into the first position, which permits the seed and blanket frames to detach from each other and defines the released position of the locking mechanism. 6. The fuel assembly of claim 1, wherein the fuel assembly in constructed and arranged to be moved from outside the nuclear reactor to inside the nuclear reactor while the locking mechanism remains in its locked position. 7. The fuel assembly of claim 1, wherein the fuel assembly is constructed and arranged to be moved from inside the nuclear reactor to outside the nuclear reactor while the locking mechanism remains in its locked position. 8. The fuel assembly of claim 1, wherein: the blanket subassembly further comprises a tailpiece; andthe locking mechanism when in the locked position secures the seed subassembly to the tailpiece of the blanket subassembly. 9. A fuel assembly for use in a nuclear reactor, the fuel assembly comprising: a seed subassembly comprising a seed frame and a plurality of seed fuel elements supported by the seed frame;a blanket subassembly comprising a blanket frame and a plurality of blanket fuel elements supported by the blanket frame; anda locking mechanism selectively movable between released and locked positions to releasably lock the seed and blanket frames together,wherein the seed subassembly is detachable from the blanket frame when the locking mechanism is in a released position,wherein the locking mechanism locks the seed and blanket frames together when in the locked position, andwherein the locking mechanism is constructed and arranged to be movable between the locked and released position while the fuel assembly is not disposed inside of a nuclear reactor. 10. The fuel assembly of claim 9, wherein the fuel assembly is constructed and arranged to be movable into and out of a nuclear reactor while the locking mechanism remains in the locked position.
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