Patent Number: 
Section: claims

1. A segmented waste rod comprising:a plurality of burnt rod segments,the rod segments being removably mated to each other in an axial direction,the rod segments being individually cladded, andthe rod segments forming a continuous multi-segment waste rod; andat least one of the rod segments being a waste rod segment containing at least one piece of non-fuel waste sealed within the waste rod segment after harvesting isotopes produced in the waste rod segment in a nuclear reactor from the waste rod. 2. The segmented waste rod of claim 1, wherein the at least one piece of waste includes material from a harvested burnt rod segment. 3. The segmented waste rod of claim 2, wherein the at least one piece of waste is selected from the group consisting of a cladding, a container assembly, a male end plug, and a female end plug. 4. The segmented waste rod of claim 2, wherein the segmented waste rod has a length and outer diameter substantially similar to the burnt segmented rod. 5. The segmented waste rod of claim 1, wherein at least one of the rod segments not containing waste contains spent nuclear fuel. 6. The segmented waste rod of claim 1, further comprising:a lower extension removably mated to a first rod segment of the plurality of rod segments at a first end of the segmented waste rod; andan upper extension removably mated to a second rod segment of the plurality of rod segments at a second end of the segmented waste rod, the upper extension and the lower extension being recycled from a burnt segmented rod. 7. The segmented waste rod of claim 1, wherein the rod segments are removably mated via a male end plug and a female end plug. 8. A method for handling nuclear waste, the method comprising:harvesting isotopes produced in a rod segment in a nuclear reactor from the rod segment;placing the waste into the rod segment so as to form a waste rod segment;sealing the waste rod segment; andplacing the waste rod segment into a segmented waste rod by axially mating the waste rod segment to at least one of an upper extension, a lower extension, a rod segment containing spent nuclear fuel, and another waste rod segment. 9. The method of claim 8, further comprising:preparing the waste for placement into the waste rod segment before placing the waste into the waste rod segment. 10. The method of claim 8, wherein the waste includes material from a harvested burnt rod segment. 11. The method of claim 10, wherein the waste includes at least one of a cladding, a container assembly, a male end plug, and a female end plug of the harvested burnt rod segment. 12. The method of claim 8, further comprising:placing the segmented waste rod into a fuel bundle. 13. The method of claim 8, wherein placing the waste into the waste rod segment includes compressing the waste into the waste rod segment. 14. The method of claim 8, wherein the sealing the waste rod segment includes welding one of a female end plug and a male end plug to an open end of the waste rod segment. 15. A method of handling waste generated from a process of harvesting isotopes from a burnt segmented fuel rod, the method comprising:rolling, cutting, and curling cladding from a rod segment harvested for isotopes;crushing at least one end plug removed from the rod segment harvested for isotopes;placing the cladding, at least one end plug, a container assembly removed from the rod segment harvested for isotopes, and a cap of the container assembly into a waste rod segment;sealing the waste rod segment; andplacing the waste rod segment in the burnt segmented fuel rod in a location from which the rod segment harvested for isotopes was taken so as to form a segmented waste rod. 16. The method of claim 15, further comprising:inserting the segmented waste rod into a burnt fuel bundle in a location from which the burnt segmented fuel rod was taken.