Patent Number: 
Section: claims

1. An apparatus for transferring spent nuclear fuel, the apparatus comprising:a cylindrical inner shell forming a cavity configured to receive a canister containing spent nuclear fuel, the cavity configured so that an annulus is formed between a canister placed in the cavity and an inner wall of the cylindrical inner shell;an intermediate shell disposed concentrically around and spaced apart from the inner shell;an outer shell disposed concentrically around and spaced apart from the intermediate shell;a bottom flange affixed to bottoms of each of the shells;a bottom lid removably affixed to the bottom flange and including at least one first channel fluidically connecting the annulus to an exterior of the bottom lid, wherein the at least one first channel is configured to preclude a direct line of travel from within the cavity to the exterior of the bottom lid, and wherein the at least one first channel comprises a toroidal-shaped distribution channel;a top flange affixed to tops of each of the shells and including at least one second channel fluidically connecting the first annulus to an exterior of the top flange, wherein the at least one second channel is configured to preclude a direct line of travel from within the cavity to the exterior of the top flange; anda top lid removably affixed to the top flange. 2. The apparatus of claim 1, wherein the toroidal-shaped distribution channel includes a plurality of distribution outlets fluidically connecting to the annulus and at least one distribution inlet fluidically connecting to the exterior of the bottom lid. 3. The apparatus of claim 2, further comprising a compressed air tank having an air outlet fluidically coupled to the distribution inlet. 4. The apparatus of claim 3, further comprising a cooling system configured to cool air within the compressed air tank. 5. The apparatus of claim 1, wherein the at least one first channel comprises a plurality of channel inlets distributed approximately equidistantly around the bottom lid. 6. The apparatus of claim 1, wherein an axial length of each of the shells is approximately the same. 7. The apparatus of claim 1, wherein a neutron absorber is disposed in a space formed between the intermediate shell and the outer shell. 8. The apparatus of claim 1, wherein a lead annulus is disposed in a space formed between the intermediate shell and the inner shell. 9. The apparatus of claim 1, the top flange comprising at least two integrally formed trunnions configured to enable hoisting of the apparatus, each trunnion disposed within a recess of the top flange. 10. The apparatus of claim 1, wherein the bottom lid further comprises an impact zone comprising an impact absorbing structure. 11. The apparatus of claim 10, wherein the impact absorbing structure comprises a plurality of tubes distributed throughout the impact zone, the tubes having longitudinal axes aligned with a major dimension of the bottom lid. 12. The apparatus of claim 10, wherein the bottom lid further comprises an impact zone comprising an impact absorbing structure. 13. The apparatus of claim 10, wherein the impact zone extends substantially under an entirety of the cavity. 14. An apparatus for transferring spent nuclear fuel, the apparatus comprising:a cylindrical inner shell forming a cavity configured to receive a canister containing spent nuclear fuel, the cavity configured so that an annulus is formed between a canister placed in the cavity and an inner wall of the cylindrical inner shell;an intermediate shell disposed concentrically around and spaced apart from the inner shell;an outer shell disposed concentrically around and spaced apart from the intermediate shell;a bottom flange affixed to bottoms of each of the shells;a bottom lid removably affixed to the bottom flange and including at least one first channel fluidically connecting the annulus to an exterior of the bottom lid, wherein the at least one first channel is configured to preclude a direct line of travel from within the cavity to the exterior of the bottom lid, and wherein the at least one first channel comprises a toroidal-shaped distribution channel;a top flange affixed to tops of each of the shells, the top flange including at least two integrally formed trunnions configured to enable hoisting of the apparatus, each trunnion disposed within a recess of the top flange; andthe top flange including and including at least one second channel fluidically connecting the first annulus to an exterior of the top flange, wherein the at least one second channel is configured to preclude a direct line of travel from within the cavity to the exterior of the top flange; anda top lid removably affixed to the top flange. 15. The apparatus of claim 14, wherein the trunnions are distributed approximately equidistantly around the top flange. 16. The apparatus of claim 14, wherein top flange has a smaller outer diameter as compared to the outer shell. 17. An apparatus for transferring spent nuclear fuel, the apparatus comprising:a cylindrical inner shell forming a cavity configured to receive a canister containing spent nuclear fuel, the cavity configured so that an annulus is formed between a canister placed in the cavity and an inner wall of the cylindrical inner shell;an intermediate shell disposed concentrically around and spaced apart from the inner shell;an outer shell disposed concentrically around and spaced apart from the intermediate shell;a bottom flange affixed to bottoms of each of the shells;a bottom lid removably affixed to the bottom flange, the bottom lid including an impact zone comprising an impact absorbing structure, wherein the impact zone extends substantially under an entirety of the cavity;the bottom lid including at least one first channel fluidically connecting the annulus to an exterior of the bottom lid, wherein the at least one first channel is configured to preclude a direct line of travel from within the cavity to the exterior of the bottom lid, and wherein the at least one first channel comprises a toroidal-shaped distribution channel;a top flange affixed to tops of each of the shells and including at least one second channel fluidically connecting the first annulus to an exterior of the top flange, wherein the at least one second channel is configured to preclude a direct line of travel from within the cavity to the exterior of the top flange; anda top lid removably affixed to the top flange. 18. The apparatus of claim 17, wherein the impact absorbing structure comprises a plurality of tubes distributed throughout the impact zone, the tubes having longitudinal axes aligned with a major dimension of the bottom lid. 19. The apparatus of claim 18, wherein each of the plurality of tubes is a cylindrical tube. 20. The apparatus of claim 17, wherein the bottom lid further comprises a neutron absorber, and the impact zone is disposed between the neutron absorber and the cavity.