Patent Number: 
Section: claims

1. A horizontal storage module for storing canisters containing nuclear fuel assemblies, said storage module comprising:a concrete bottom, four side walls, and a top wall forming an inner space for receiving a canister, wherein the storage module includes an inlet in one of the side walls for horizontally receiving a canister;said storage module configured to allow airflow through the storage module by natural convection to dissipate the heat emitted from the nuclear fuel assemblies;at least one heat transfer structure disposed within the storage module and positioned to transfer heat from the canister to the air flowing through the storage module, the heat transfer structure including a plurality of fins disposed within the inner space of the module for transferring heat from the canister to the air flowing through the storage module, wherein the plurality of fins are movable between a first canister receiving position and a second canister storage position; andat least one heat shield disposed in the module configured to shield the interior of the storage module from the heat emitted from the nuclear fuel assemblies. 2. The canister storage module of claim 1, wherein the concrete bottom, top and side walls of the storage module are composed of a mixture of concrete and reinforcing fibers configured to reinforce the concrete. 3. The canister storage module according to claim 2, wherein the reinforcing fibers are selected from the group consisting of steel fibers, glass fibers, and carbon fibers. 4. The canister storage module according to claim 1, wherein said heat transfer structure further includes a mounting structure for mounting the fins within the storage module, the mounting structure positionable in a first position to provide clearance relative to the storage canister when the storage canister is being inserted within the storage module and the mounting structure positionable in a second position with the fins positioned against the storage canister when the storage canister is placed within the storage module. 5. The canister storage module according to claim 4, wherein the mounting structure hingedly mounts the fins within the storage module to rotate into engagement with the canister when the canister has been placed within the storage module. 6. The canister storage module according to claim 1, wherein the fins have a deformable inner face portion that presses against the canister as the canister is inserted within the storage module and continue pressing against the canister when the canister is in the storage module. 7. The canister storage module according to claim 1, wherein at least one of said heat shield structure and said heat transfer structure includes a barrier structure extending along one or more of the side walls, top wall, and bottom wall of the storage module and mounted to the storage module spaced from the corresponding wall of the storage module configured to shield heat emitted from the storage canister from reaching the walls of the storage module and to transfer the heat from the storage canister to the air flowing through the storage module. 8. The canister storage module according to claim 7, wherein said heat barrier structure is a structure selected from the group consisting of the plate structure, a corrugated wall structure, and a tubular wall structure. 9. The canister storage module according to claim 1, wherein the surface of the heat barrier structure facing the canister is treated with a high-emissivity surface treatment or a high emissivity surface coating to increase the radiative heat transfer from the canister surface to the barrier structure. 10. The canister storage module according to claim 1, wherein the at least one heat shield is a tubular heat shield including a plurality of tubes. 11. The canister storage module according to claim 1, wherein the at least one heat shield is disposed along an inner surface of at least one of a bottom, top, or side wall. 12. The canister storage module according to claim 1, wherein the storage module has a substantially rectangular cross section. 13. The canister storage module of claim 1, wherein the at least one heat shield is disposed in the module along an inner surface of the module.