Patent Number: 
Section: claims

1. A system for storing spent nuclear fuel comprising:a shell forming a cavity, the shell having an open top end, a hermetically closed bottom end, a height and an opening in a side wall of the shell;a canister storing spent nuclear fuel positioned in the cavity, the cavity having a horizontal cross-section that accommodates no more than one of the canister;an inlet ventilation duct having an inlet opening, the inlet ventilation duct connected to the shell so as to enclose the opening of the shell, the inlet ventilation duct forming a hermetically sealed passageway from the inlet opening to the opening of the shell, the hermetically sealed passageway excluding the cavity; andthe opening of the shell positioned at a first vertical height above the bottom end of the shell and the inlet opening positioned at a second vertical height above the bottom end of the shell, wherein the second vertical height is greater than the first vertical height. 2. The system of claim 1 further comprising:a lid positioned atop the shell so as to substantially enclose the open top end of the shell, the lid being non-unitary with respect to the shell; andwherein the lid comprises an outlet ventilation duct forming a passageway from a top of the cavity to an ambient atmosphere. 3. The system of claim 1 further comprising an outlet ventilation duct forming a passageway from a top of the cavity to an ambient atmosphere. 4. The system of claim 3 wherein the outlet ventilation duct is hermetically connected to the shell. 5. The system of claim 1 further comprising a bottom plate, the shell positioned atop the bottom plate so that the bottom plate forms the hermetically closed bottom end, and wherein the bottom plate, the shell, and the inlet ventilation duet form an integral structure. 6. The system of claim 1 further comprising a concrete body surrounding the shell, the inlet ventilation duct extending through the concrete body. 7. The system of claim 1 further comprising a first of the inlet ventilation duct and a second of the inlet ventilation duct, wherein each of the first and second inlet ventilation ducts are substantially S-shaped. 8. The system of claim 1 further comprising means for insulating the inlet ventilation duct from the shell. 9. The system of claim 1 further comprising a base positioned below a grade, the shell and the inlet ventilation duct positioned atop the base. 10. The system of claim 1 further comprising:a ground having a grade; andwherein a major portion of the shell is positioned below the grade so that the opening in the side wall of the shell is below the grade, and the inlet opening is above the grade. 11. The system of claim 10 further comprising:a lid positioned atop the shell so as to substantially enclose the open top end of the shell, the lid being non-unitary with respect to the shell; andwherein an outlet air plenum is created between the lid and the canister, and an outlet ventilation duct that forms a passageway from the outer air plenum to an ambient atmosphere above the grade. 12. The system of claim 1 wherein the shell and the inlet ventilation duct are constructed of steel, the inlet ventilation duct being seal welded to the shell. 13. The system of claim 1 further comprising one or more support blocks located on a floor of the cavity. 14. The system of claim 1 further comprising:a lid positioned atop the shell so as to substantially enclose the open top end of the shell, the lid being non-unitary with respect to the shell;a first of the inlet ventilation duct and a second of the inlet ventilation duct, wherein each of the first and second inlet ventilation ducts are substantially S-shaped;one or more support blocks located on a floor of the cavity; the lid secured to a top of the shell, the lid comprising an outlet ventilation duct;a bottom plate; wherein the bottom plate, the shell, and the first and second inlet ventilation ducts form an integral structure;a concrete body surrounding the shell, the first and second inlet ventilation ducts extending through the concrete body;means for insulating the inlet ventilation duct from the shell;a ground having a grade;the shell positioned sufficiently below the grade so that the entire canister is below the grade;a base positioned below the grade, the shell and inlet ventilation duct positioned atop the base;wherein the shell, the inlet ventilation duct, and the bottom plate are constructed of steel and seal welded together; andwherein an outlet air plenum is created between the lid and the canister. 15. The system of claim 1 further comprising a lid positioned atop the shell so as to substantially enclose the open top end of the shell, the lid being non-unitary with respect to the shell. 16. The system of claim 1 further comprising:the shell and the inlet ventilation ducts being constructed of metal; anda concrete body surrounding the shell, the inlet ventilation duct extending through the concrete body. 17. A system for storing spent nuclear fuel comprising:a shell forming a cavity, the shell having an open top end, a hermetically closed bottom end, a height and an opening in a side wall of the shell;a multi-purpose canister storing spent nuclear fuel positioned in the cavity so that an annular space exists between the shell and the multi-purpose canister, the cavity having a horizontal cross-section that accommodates no more than one of the multi-purpose canister;an inlet ventilation duct extending from an outside surface of the shell and having an inlet opening, the inlet ventilation duct connected to the shell so as to enclose the opening of the shell, the inlet ventilation duct forming a hermetically sealed passageway from the inlet opening into the annular space via the opening of the shell;the opening of the shell positioned at a first vertical height above the bottom end of the shell and the inlet opening positioned at a second vertical height above the bottom end of the shell, wherein the second vertical height is greater than the first vertical height; andwherein a line of sight does not exist through the hermetically sealed passageway from the inlet opening to the opening. 18. A system for storing spent nuclear fuel comprising:a shell forming a cavity, the shell having an open top end, a hermetically closed bottom end, a height and an opening in a side wall of the shell;a canister storing spent nuclear fuel positioned in the cavity, the cavity having a horizontal cross-section that accommodates no more than one of the canister;an inlet ventilation duct having an inlet opening, the inlet ventilation duct connected to the shell so as to enclose the opening of the shell, the inlet ventilation duct forming a hermetically sealed passageway exclusive of the cavity that extends from the inlet opening into the cavity via the opening of the shell; andthe opening of the shell positioned at a first vertical height above the bottom end of the shell and the inlet opening positioned at a second vertical height above the bottom end of the shell, wherein the second vertical height is greater than the first vertical height. 19. The system of claim 1 wherein the open top end of the cavity has a horizontal cross section through which the canister can pass. 20. The system of claim 17 wherein the open top end of the cavity has a horizontal cross section through which the multi-purpose canister can pass. 21. The system of claim 18 wherein the open top end of the cavity has a horizontal cross section through which the canister can pass.