Patent Number: 
Section: claims

1. A canister for spent nuclear fuel storage comprising:a longitudinal axis;an elongated shell extending along the longitudinal axis, the shell including a top end and a bottom end;a cavity extending along the longitudinal axis inside the shell for storing spent nuclear fuel;a baseplate attached to the bottom end of shell and enclosing a lower portion of the cavity;a closure lid detachably fastened to the top end of the shell and enclosing an upper portion of the cavity;a plurality of mounting bolts extending longitudinally through the lid and threadably engaging the top end of the shell; wherein the canister is configured for placement inside an outer overpack with radiation shielding; andwherein the lid has a circular lid body comprising a lower portion inserted into the cavity of the shell, an upper portion, and an intermediate annular mounting flange protruding radially outwards beyond the lower and upper portions, the bolts extending longitudinally through respective vertical bolt holes in the mounting flange to engage the top of the shell. 2. The canister according to claim 1, wherein the mounting flange does not protrude radially outwards beyond the top of the shell. 3. The canister according to claim 1, wherein the lid includes an annular step-shaped upper shoulder at a transition between the mounting flange and upper portion, and an annular step-shaped lower shoulder at a transition between mounting flange and the lower portion. 4. The canister according to claim 1, further comprising an upper circumferential seal disposed at an interface between the upper shoulder and the top of the shell, and a lower circumferential seal disposed at an interface between the lower portion and the shell. 5. The canister according to claim 1, wherein the lid body has a monolithic unitary construction which includes the upper portion, the lower portion, and the mounting flange. 6. The canister according to claim 1, wherein the lid is hermetically seal welded to the top of the shell and does not protrude radially outwards beyond the top of the shell. 7. The canister according to claim 1, wherein the bolts each define a bolt axis which is spaced by a first radial distance from the longitudinal axis of the canister which is less than a second radial distance between an outer surface of the shell and the longitudinal axis. 8. The canister according to claim 1, wherein the bolts each threadably engage a corresponding upwardly open threaded bore formed in the top of the shell. 9. The canister according to claim 8, wherein the threaded bores penetrate an upward facing annular end surface of the top of the shell. 10. The canister according to claim 9, when the bolts are arranged in a circumferentially and uniformly spaced apart bolt pattern extending a full 360 degrees around the annular end surface of the top of the shell. 11. The canister according to claim 8, wherein the fastening portion has a greater first wall thickness than a second wall thickness of the lower portion of the shell between the fastening portion and the bottom end of the shell, and the fastening portion having a height greater than at least three times its first wall thickness. 12. The canister according to claim 11, wherein the fastening portion protrudes radially outwards beyond the lower portions of the shells and defines an outwardly open recessed area extending longitudinally between the fastening portion and the baseplate of the canister. 13. The canister according to claim 12, further comprising a plurality of longitudinally-extending cooling fins protruding radially outwards from the shell in the recess. 14. The canister according to claim 13, wherein the fins do not protrude radially outwards beyond the upper reinforced fastening portion of the shell. 15. The canister according to claim 11, wherein the baseplate protrudes radially outwards beyond the lower portion of the shell. 16. A canister for spent nuclear fuel storage comprising:a cylindrical shell extending along the longitudinal axis, the shell including a top end, a bottom end, and an outer surface;an internal cavity extending between the top and bottom ends of the shell along the longitudinal axis for storing spent nuclear fuel;a baseplate attached to the bottom end of shell and enclosing a lower portion of the cavity;a closure lid detachably fastened to the top end of the shell and enclosing an upper portion of the cavity, the lid having a circular body comprising a first upper portion and a second mounting flange portion protruding radially outwards beyond the first upper portion;a plurality of mounting bolts extending longitudinally through the second mounting flange portion of the lid and threadably engaging the top end of the shell; wherein the second mounting flange portion of the lid does not protrude radially outwards beyond the outer surface of the shell;wherein the canister is configured for placement inside an outer overpack with radiation shielding; andwherein the lid further comprises a third lower portion inserted into the cavity of the shell, the second mounting flange portion protruding radially outwards beyond the third lower portion. 17. The canister according to claim 16, wherein the bolts each threadably engage a corresponding upwardly open threaded bore formed in the top of the shell. 18. The canister according to claim 16, further comprising an annular circumferential seal disposed at an interface between an upward facing annular end surface of the top of the shell and a downward facing annular surface defined by the mounting flange portion of the lid. 19. The canister according to claim 18, further comprising a circular radiation shield plate received in an upper portion of the cavity and supported therein by the shell, the shield plate disposed between the mounting flange portion of the lid and the cavity. 20. The canister according to claim 19, further comprising a circular diaphragm seal interspersed between the shield plate and the mounting flange portion of the lid. 21. The canister according to claim 16, further comprising a plurality of longitudinally-extending cooling fins protruding radially outwards from the shell, the fins spaced perimetrically apart around the shell. 22. The canister according to claim 21, wherein the fins do not protrude radially beyond the lid of the canister. 23. The canister according to claim 22, wherein the fins do not protrude radially beyond the baseplate of the canister.