Patent Number: 
Section: claims

1. An energy reclamation system comprising:a plurality of storage cavities having substantially vertical axes and arranged in a spaced-apart side-by-side manner;at least one hermetically sealed canister containing spent nuclear fuel emanating heat positioned within each of the storage cavities;an air-intake passageway extending from an ambient environment to a bottom portion of each of the storage cavities;an air-outlet manifold fluidly coupling a top portion of each of the storage cavities to an air-outlet passageway, the air outlet manifold converging heated air exiting the top portions of the storage cavities and directing said converged heated air into the air-outlet passageway, the air-outlet manifold comprising a first network of pipes that directly fluidly couples the top portion of each storage cavity to either: (1) the top portion of at least two other ones of the storage cavities; or (2) one other one of the storage cavities and the air-outlet passageway, so that the top portion of each of the storage cavities is fluidly coupled to at least one other one of the storage cavities and to the air-outlet passageway; andan energy reclamation unit located within the air-outlet passageway. 2. The system of claim 1 further comprising an air-intake manifold fluidly coupling the bottom portions of the storage cavities to an air-intake cavity. 3. The system of claim 2 wherein the air-intake manifold comprises a second network of pipes forming hermetically sealed passageways between the bottom portions of the storage cavities and the air-intake cavity. 4. The system of claim 3 wherein each of the storage cavities is formed by a storage shell and the air-intake cavity is formed by an air-intake shell. 5. The system of claim 4 wherein the first network of pipes forms hermetically sealed passageways between the top portions of the storage cavities and the air-outlet passageway. 6. The system of claim 5 wherein each of the storage shells comprises at least one outlet opening to which the first network of pipes is fluidly coupled and at least one inlet opening to which the second network of pipes is fluidly coupled, and wherein for each of the storage cavities, a bottom of the canister is located above a top of the inlet opening and a top of the canister is located below a bottom of the outlet opening. 7. The system of claim 5 further comprising:a ground having a grade;wherein the storage shells are positioned so that at least a major portion of a height of each storage shell is located below the grade and a top edge of each storage shell is at or above the grade, the first and second network of pipes being located below the grade;the air-intake cavity forming a passageway between an opening located above the grade and the second network of pipes; andthe air-outlet passageway extending from the first network of pipes to an opening located above the grade. 8. The system of claim 7 wherein the storage shells, the air-intake shell, and the first and second networks of pipes are hermetically sealed against the ingress of below grade liquids. 9. The system of claim 7 wherein the top edge of each storage shell defines an opening through which the canisters can be inserted into the storage cavities, and the system further comprising a lid detachably coupled to the top edge of each of the storage shells to enclose the storage cavities. 10. The system of claim 1 wherein each of the storage cavities is formed by a storage shell, and wherein for each storage cavity, a gap exists between the storage shell and the canister, the horizontal cross-section of the storage cavity accommodating no more than one of the canisters. 11. The system of claim 10 further comprising one or more layers of insulating material circumferentially surrounding the vertical axis of each storage cavity and affixed to the storage shell. 12. The system of claim 1 wherein the first network of pipes forms hermetically sealed horizontal passageways between the top portions of the storage cavities and the air-outlet passageway, the air outlet passageway being substantially vertical. 13. The system of claim 1 wherein the energy reclamation unit is a heat exchanger. 14. An energy reclamation system comprising:a plurality of storage cavities having substantially vertical axes and arranged in a spaced-apart side-by-side manner;at least one hermetically sealed canister containing spent nuclear fuel emanating heat positioned within each of the storage cavities;an air-intake passageway extending from an ambient environment to a bottom portion of each of the storage cavities;an air-outlet manifold fluidly coupling a top portion of each of the storage cavities to an air-outlet passageway, the air outlet manifold converging heated air exiting the top portions of the storage cavities and directing said converged heated air into the air-outlet passageway;an energy reclamation unit located within the air-outlet passageway; andwherein each of the storage cavities is formed by a storage shell, and further comprising a lid detachably coupled to a top edge of each of the storage shells to enclose the storage cavities, wherein each of the storage shells comprises at least one opening to which the air-outlet manifold is fluidly coupled, and wherein the at least one opening is formed directly into the storage shell at a location below the lid. 15. An energy reclamation system comprising:a plurality of storage cavities having substantially vertical axes and arranged in a spaced-apart side-by-side manner;at least one hermetically sealed canister containing spent nuclear fuel emanating heat positioned within each of the storage cavities;an air-intake passageway extending from an ambient environment to a bottom portion of each of the storage cavities;an air-outlet manifold fluidly coupling a top portion of each of the storage cavities to an air-outlet passageway, the air outlet manifold converging heated air exiting the top portions of the storage cavities and directing said converged heated air into the air-outlet passageway, the air-outlet manifold comprising a network of pipes forming hermetically sealed passageways that extend directly between the top portions of adjacent ones of the storage cavities and directly between at least one of the storage cavities and the air-outlet passageway; andan energy reclamation unit located within the air-outlet passageway. 16. The system of claim 15 wherein the top portions of each of the storage cavities is directly fluidly coupled to either: (1) the top portion of at least two other ones of the storage cavities; or (2) one other one of the storage cavities and the air-outlet passageway. 17. The system of claim 15 wherein each of the storage cavities is formed by a storage shell, and wherein the network of pipes comprises at least one pipe having a first end coupled directly to One of the storage shells and as second end coupled directly to the air-outlet passageway.