A fuel rod for a nuclear fission reactor is disclosed and claimed. The fuel rod includes an elongate hollow cladding configured to retain a nuclear fuel therein. The cladding includes an elongate hollow tube. Fiber layers are positioned around the outside surface of the tube or within the tube formi
A fuel rod for a nuclear fission reactor is disclosed and claimed. The fuel rod includes an elongate hollow cladding configured to retain a nuclear fuel therein. The cladding includes an elongate hollow tube. Fiber layers are positioned around the outside surface of the tube or within the tube forming an integral part thereof. Both the tube and the fibers are formed of a ceramic material. A fuel assembly including a plurality of such fuel rods is also disclosed and claimed.
대표청구항▼
1. A nuclear fuel rod, comprising an elongate hollow cladding configured to retain a nuclear fuel therein, the cladding comprising: an elongate hollow tube including a first tubular fiber layer, a tubular solid ceramic material layer surrounding the first tubular fiber layer and a second tubular fib
1. A nuclear fuel rod, comprising an elongate hollow cladding configured to retain a nuclear fuel therein, the cladding comprising: an elongate hollow tube including a first tubular fiber layer, a tubular solid ceramic material layer surrounding the first tubular fiber layer and a second tubular fiber layer surrounding the solid tubular ceramic material layer, each of the first tubular fiber layer and the second tubular fiber layer comprising at least one fiber formed of a ceramic material arranged into a tube shape. 2. The nuclear fuel rod of claim 1, wherein the tubular solid ceramic material layer is formed of silicon carbide. 3. The nuclear fuel rod of claim 1, wherein the first tubular fiber layer, the tubular solid ceramic material layer and the second tubular fiber layer are formed of the same ceramic material. 4. The nuclear fuel rod of claim 1, wherein each of the first tubular fiber layer and the second tubular fiber layer is made of a plurality of fibers. 5. The nuclear fuel rod of claim 4, wherein said plurality of fibers form an integral mesh. 6. The nuclear filet rod of claim 5, wherein said mesh has an aspect ratio within the range of 1 to 5. 7. The nuclear fuel rod of claim 1, wherein the first tubular fiber layer and the second tubular fiber layer are positioned within said cladding between an inner surface and an outer surface of said cladding. 8. The nuclear fuel rod of claim 7, wherein the first tubular fiber layer is positioned closer to an inner diameter surface of said cladding than to an outer diameter surface of said cladding. 9. The nuclear fuel rod of claim 7, wherein the second tubular fiber layer is positioned closer to an outer diameter surface of said cladding than to an inner diameter surface of said cladding. 10. The nuclear fuel rod of claim 1, wherein each of the first tubular fiber layer and the second tubular fiber layer includes a plurality of individual fiber layers positioned such that adjacent ones of said individual fiber layers of the respective first tubular fiber layer and the second tubular fiber layer are non-parallel. 11. The nuclear fuel rod of claim 10, wherein adjacent ones of said individual fiber layers form a relative angle of 75° to 105°. 12. The nuclear fuel rod of claim 1, wherein each of the first tubular fiber layer and the second tubular fiber layer includes a plurality of individual fiber layers and said tube has a longitudinal axis and the individual ones of said plurality of fiber layers are positioned such that none of said individual ones is parallel to said longitudinal axis. 13. The nuclear fuel rod of claim 1, wherein the first tubular fiber layer and the second tubular fiber layer form an integral part of said tube. 14. The nuclear fuel rod of claim 1, wherein said cladding comprises a residual substance to reduce a friction coefficient of said fiber. 15. The nuclear fuel rod of claim 14, wherein a mass of said residual substance does not exceed 8% of a total mass of said fiber. 16. The nuclear fuel rod of claim 14, wherein said residual substance is an integral component of said fiber. 17. The nuclear fuel rod of claim 14, wherein said residual substance includes boron or graphite. 18. The nuclear fuel rod of claim 1, wherein said tube has a longitudinal axis and at least one of the first tubular fiber layer and the second tubular fiber layer is positioned such that the at least one fiber thereof forms an angle of 30° to 70° relative to said longitudinal axis. 19. A nuclear fuel assembly for a light water reactor, comprising: a plurality of nuclear fuel rods, each of said fuel rods comprising an elongate hollow cladding, the cladding including:an elongate hollow tube including a first tubular fiber layer, a tubular solid ceramic material layer surrounding the first tubular fiber layer and a second tubular fiber layer surrounding the solid tubular ceramic material layer, each of the first tubular fiber layer and the second tubular fiber layer comprising at least one fiber formed of a ceramic material arranged into a tube shape. 20. The nuclear fuel assembly of claim 19, wherein the tubular solid ceramic material layer is formed of silicon carbide. 21. The nuclear fuel assembly of claim 19, wherein the first tubular fiber layer, the tubular solid ceramic material layer and the second tubular fiber layer are formed of the same ceramic material. 22. The nuclear fuel assembly of claim 19, wherein said plurality of fibers form an integral mesh. 23. The nuclear fuel assembly of claim 19, wherein said cladding comprises a residual substance to reduce a friction coefficient of said fibers. 24. The nuclear fuel assembly of claim 1, wherein the elongate hollow tube further incudes a further tubular solid ceramic material layer surrounding the second tubular fiber layer and a third tubular fiber layer surrounding the further solid tubular ceramic material layer.
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이 특허에 인용된 특허 (13)
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