Patent Number: 052001385
Section: claims

1. A spectral shift-producing subassembly for use with a nuclear fuel assembly in a nuclear reactor, said subassembly comprising: (a) at least one elongated hollow empty tubular rodlet being hermetically sealed at its opposite ends and having an axially-extending annular wall section of reduced thickness compared to the thickness of the remainder of said rodlet thereby adapting said reduced thickness wall section of said rodlet to creep collapse- and rupture after a desired extended period of use in a nuclear reactor permitting moderator liquid in the reactor to enter and fill the empty rodlet and produce a spectral shift; and  (b) means for mounting said rodlet in the nuclear fuel assembly.  an elongated hollow empty tube having an elongated annular wall; and  end plugs hermetically sealed to opposite ends of said tube;  said wall of said tube having said axially-extending annular wall section of reduced thickness compared to the thickness of the remainder of said wall of said tube.  (a) a plurality of elongated hollow empty tubular rodlets, each rodlet being hermetically sealed at its opposite ends and having an axially-extending annular wall section of reduced thickness compared to the thickness of the remainder of said rodlet thereby adapting said reduced thickness wall section to creep collapse and rupture after a desired extended period of use in a nuclear reactor permitting moderator to enter and fill the empty rodlet and produce a spectral shift; and  (b) means for mounting said rodlets in the nuclear fuel assembly in spaced side-by-side relationship to one another.  an elongated hollow empty tube having an elongated annular wall; and  end plugs hermetically sealed to opposite ends of said tube;  said wall of said tube having said axially-extending annular wall section of reduced thickness compared to the thickness of the remainder of said wall of said tube.  (a) a plurality of elongated hollow empty tubular rodlets, each rodlet being hermetically sealed at its opposite ends and having an axially-extending annular wall section of reduced thickness compared to the thickness of the remainder of said rodlet thereby adapting said reduced thickness wall section to creep collapse and rupture after a desired extended period of use in the nuclear reactor permitting moderator in the reactor to enter and fill the empty rodlet and produce a spectral shift; and  (b) means for mounting said rodlets in said selected fuel assemblies in spaced side-by-side relationship to one another.  an elongated hollow empty tube having an elongated annular wall; and  end plugs hermetically sealed to opposite ends of said tube;  said wall of said tube having said axially-extending annular wall section of reduced thickness compared to the thickness of the remainder of said wall of said tube. 2. The subassembly as recited in claim 1, wherein said rodlet includes: 3. The subassembly as recited in claim 1, wherein said rodlet includes a gas contained at a predetermined internal pressure. 4. The subassembly as recited in claim 1, wherein said mounting means is a holddown mechanism. 5. A spectral shift-producing subassembly for use with a nuclear fuel assembly in a nuclear reactor, said subassembly comprising: 6. The subassembly as recited in claim 5, wherein each of said rodlets includes: 7. The subassembly as recited in claim 6, wherein the respective reduced thicknesses of said axial wall sections of a first group of said rodlets are different from the reduced thicknesses of said axial wall sections of a second group of said rodlets thereby adapting said rodlets of said first group to rupture at different times than said rodlets of said second group. 8. The subassembly as recited in claim 6, wherein each of said rodlets includes a gas contained at a predetermined internal pressure. 9. The subassembly as recited in claim 8, wherein the internal pressure of the gas in a first group of said rodlets is different from the internal pressure of the gas in a second group of said rodlets thereby adapting said rodlets of said first group to rupture at different times than said rodlets of said second group. 10. The subassembly as recited in claim 5, wherein said mounting means is a holddown mechanism. 11. In a nuclear reactor having fuel assemblies and a moderator coolant liquid flowing through said fuel assemblies, each fuel assembly including an organized array of nuclear fuel rods wherein said moderator coolant liquid flows along said fuel rods, a spectral shift-producing subassembly supported on selected ones of said fuel assemblies, said subassembly comprising: 12. The subassembly as recited in claim 11, wherein each of said rodlets includes: 13. The subassembly as recited in claim 12, wherein the respective reduced thicknesses of said axial wall sections of a first group of said rodlets are different from the reduced thicknesses of said axial wall sections of a second group of said rodlets thereby adapting said rodlets of said first group to rupture at different times than said rodlets of said second group. 14. The subassembly as recited in claim 12, wherein each of said rodlets includes a gas contained at a predetermined internal pressure. 15. The subassembly as recited in claim 14, wherein the internal pressure of the gas in a first group of said rodlets is different from the internal pressure of the gas in a second group of said rodlets thereby adapting said rodlets of said first group to rupture at different times than said rodlets of said second group. 16. The subassembly as recited in claim 11, wherein said mounting means is a holddown mechanism.