Patent Number: 047117583
Section: claims

1. A cask for storage of nuclear fuel, comprising: a container having a cavity therein, the cavity including a top portion, a bottom portion defining a floor, and a generally cylindrical side wall extending between the top and bottom portions, the side wall having a plurality of annular regions with different inner diameters; and  basket means for providing a plurality of elongated storage slots to receive the nuclear fuel, said basket means including a plurality of grid assemblies with circular peripheries and different diameters, and means for coaxially mounting said grid assemblies at spaced-apart positions so that the periphery of each grid assembly faces a respective annular region, said grid assemblies being dimensioned to permit insertion of said basket means into said cavity and to expand into pressing contact with said annular regions during storage of the nuclear fuel in order to facilitate the transfer of heat from said basket means through the peripheries of said grid assemblies to said annular regions, the pressing contact extending for 360.degree. about the periphery of each grid assembly,  wherein the diameters of said grid assemblies and the inner diameters of said annular regions decrease from the top portion to the bottom portion of said container.  a container having a cavity therein, the cavity including a top portion, a bottom portion, and a generally cylindrical side wall extending between the top and bottom portions, the side wall having a plurality of annular regions with different inner diameters; and  basket means for providing a plurality of elongated storage slots to receive the nuclear fuel, said basket means including a plurality of spaced-apart protrusions having circular peripheries that are coaxially disposed and having different diameters, each protrusion facing a respective annular region, said protrusions being dimensioned to permit insertion of said basket means into said cavity and to expand into pressing contact with said annular regions during storage of the nuclear fuel in order to facilitate the transfer of heat from said basket means through the peripheries of said protrusions to said annular regions, the pressing contact extending for 360.degree. about the periphery of each protrusion,  wherein the diameters of said protrusions and the inner diameter of said annular regions decrease from the top portion to the bottom portion of said container. 2. The cask of claim 1, wherein each grid assembly comprises a plurality of plates connected to one another to form a matrix having rectangular apertures, the apertures of said grid assemblies being aligned to provide said storage slots, and a plurality of block elements affixed to said plates to form said periphery. 3. The cask of claim 2, wherein a plurality of the metal plates of each grid assembly have holes therein, and wherein said means coaxially mounting said grid assemblies comprises legs extending through said holes and, for each plate having a hole, a bottom ring affixed to a leg on one side of the hole and a top ring affixed to the leg on the other side of the hole, the distance between said top and bottom rings being greater than the thickness of the block having the hole so that said block having the hole is slidably confined between said top and bottom rings. 4. The cask of claim 2, further comprising means disposed in said storage slots for enclosing the nuclear fuel. 5. The cask of claim 4, wherein said means disposed in said storage slots comprises four-sided cells, each side having a sheet of neutron poison material affixed thereto, and further comprising heat conducting means affixed to said plates for positioning said cells in said storage slots. 6. The cask of claim 5, wherein for each cell said heat conducting means comprises wedges disposed adjacent two walls of the cell and spaced apart from the walls of the cell. 7. The cask of claim 6, wherein said wedges are spaced apart from said cell wall by gaps ranging from about 0.005 cm to about 0.025 cm. 8. The cask of claim 7, wherein said cask is flooded with gas. 9. The cask of claim 8, wherein said gas comprises helium. 10. The cask of claim 1, wherein said annular regions are rings which project into said cavity. 11. The cask of claim 10 wherein the difference between the diameters of adjacent grid assemblies is constant and the difference between the diameters of adjacent rings is constant. 12. The cask of claim 11, wherein at a predetermined temperature the diameter of each grid assembly is less than the diameter of the corresponding ring by a constant amount. 13. The cask of claim 12, wherein the difference in the diameters of adjacent grid assemblies and rings is approximately 0.6 cm and at the predetermined temperature the diameter of each grid assembly is less than the diameter of its corresponding ring by approximately 0.3 cm. 14. The cask of claim 10, wherein the width of each ring is greater than the thickness of the corresponding grid assembly. 15. The cask of claim 10, wherein said rings and grid assemblies have beveled edges. 16. The cask of claim 1, wherein the pressing contact between said peripheries of said grid assemblies and said annular regions of said wall is at least about 1000 pounds per square inch. 17. The cask of claim 1, wherein the pressing contact between said peripheries of said grid assemblies and said annular regions of said wall is not greater than about 4000 pounds per square inch. 18. A cask for storage of nuclear fuel, comprising: 19. The cask of claim 18, wherein said annular regions are rings which project into said cavity.