Patent Number: 048271390
Section: claims

1. A basket for a cask for transporting nuclear fuel elements comprising a plurality of tubes of non-corrosive material, each of said tubes having internal cross-section dimension for receiving a nuclear fuel assembly such that the assembly is held firmly in place within said tubes, said plurality of tubes being arranged in a stacked pattern to fit within a cask, each said tubes being independent of every other tube in said stacked pattern such that the transfer of stresses from tube to tube is impeded and being adapted to maintain adjacent tubes in position within the stack along at least one axis, a plurality of filler block members adapted to be inserted between the stacked tubes and the inner wall of the cask to fill the empty spaces therebetween, each of said filler block members being indpendent of each other, the tubes in the stacked pattern, and the inner wall of the cask to impede the transfer of stresses throughout the basket and cask structure, the shape and dimensions of said filler blocks being such that when the blocks are assembled with the stacked tubes and inserted into the cask, the entire basket, including said tubes, is held rigidly in place within the cask.  a plurality of seamless tubes of non-corrosive material, each of said tubes having internal cross-sectioned dimensions for receiving a spent nuclear fuel assembly such that the assembly is held firmly in place within said tubes, said plurality of tubes being arranged in a stacked pattern to fit within a cask, each of said tubes being independent of every other tube in said stacked pattern such that the transfer of stresses from tube to tube is impeded, and being adapted to maintain adjacent tubes in position within the stack along at least one axis,  spacer members of neutron poisoning material located between adjacent tubes within the stack,  a plurality of filler block members of heat conducting neutron poisoning material adapted to be inserted between the stacked tubes and the inner wall of the cask to fill the empty spaces therebetween, each of said filler block members being independent of each other, the tubes in the stacked pattern, and the inner wall of the cask to impede the transfer of stresses throughout the basket and cask structure, the shape and dimensions of said filler blocks being such that when the blocks are assembled with the stacked tubes and inserted into the cask, the entire basket including said tubes and said spacers is held rigidly in place with the cask.  a cask having an outer shell, and intermediate shell spaced from said outer shell, and an inner shell spaced from said intermediate shell,  the space between said outer shell and said intermediate shell containing neutron radiation absorbing material,  the space between said intermediate shell and said inner shell containing gamma radiation blocking material, and the space within the inner shell being filled with a basket comprising a plurality of tubes of non-corrosive material extending longitudinally of said cask,  said tubes being arranged in a stack pattern designed to maximize the number of tubes within said inner shell and each of said tubes having internal cross-section dimensions for receiving a nuclear fuel assembly is held firmly in place within said tube,  each of said tubes in said pattern being independent of every other tube in said pattern such that the transfer of stresses from tube to tube is impeded, and being adapted to maintain adajcent tubes in position in said stack pattern along at least one axis,  at least one spacer member of neutron poisoning material positioned between adjacent tubes in said stack pattern,  a plurality of filler block members adapted to be inserted between the stacked tubes and said inner shell to fill substantially completely the empty spaces therebetween, each of said filler block members being independent of each other, the tubes in said stack pattern, and said inner shell to impede the transfer of stresses throughout the basket and cask structure, the shape and dimensions of said filler blocks being such that the entire basket, including said tubes is held rigidly in place within said inner shell. 2. The basket as claimed in claim 1 and further comprising spacer members of neutron poisoning material between each pair of adjacent tubes. 3. The basket as claimed in claim 2 wherein each of said spacer members is made of an alloy of aluminum and boron. 4. The basket as claimed in claim 2 wherein the said spacer members are independent of each of the adjacent ones of said tubes. 5. The basket as claimed in claim 2 wherein two of said spacer members are affixed to each one of said tubes along abutting sides thereof. 6. A basket for a cask for transporting spent nuclear fuel elements comprising, 7. A basket as claimed in claim 6 wherein said tubes are of aluminum. 8. A basket as claimed in claim 6 wherein said tubes are of stainless steel. 9. A basket as claimed in claim 6 wherein said tubes are of an alloy of aluminum and boron. 10. A basket as claimed in claim 6 wherein said spacer members are formed of an alloy of aluminum and boron. 11. A basket as claimed in claim 6 wherein each of said tubes has two pairs of locating tabs extending lengthwise along the edges of two abutting sides of said tubes. 12. A basket and cask assembly for transporting spent nuclear fuel assemblies comprising 13. A basket and cask assembly as claimed in claim 11 wherein each of said tubes is a seamless hollow member formed of extruded aluminum containing material.