Patent Number: 
Section: claims

1. A method of repairing a bottom-mounted instrumentation nozzle for an irradiated reactor vessel that is filled with water and has the reactor internals removed and an in-core instrument tube connected to the bottom-mounted instrumentation nozzle below the reactor vessel, comprising the steps of:installing a plug within or over the bottom-mounted instrumentation nozzle in a manner that prevents the water in the reactor vessel from leaking to any significant extent through the bottom-mounted instrumentation nozzle;severing the bottom-mounted instrumentation nozzle from the in-core instrument tube below the plug;sealing an external container over the bottom-mounted instrumentation nozzle and against an underside of the reactor vessel to create a substantially leak tight seal between the external container and a bottom of the reactor vessel;removing at least a portion of a weld between the reactor vessel and the bottom-mounted instrumentation nozzle;applying an upward force on the bottom-mounted instrumentation nozzle to remove the bottom-mounted instrumentation nozzle from a thru-opening in the bottom of the reactor vessel;inserting a new bottom-mounted instrumentation nozzle through the thru-opening in the bottom of the reactor vessel or a new bottom-mounted instrumentation nozzle plug into the thru-opening in the bottom of the reactor vessel; andsealably attaching the new bottom-mounted instrumentation nozzle or the bottom nozzle instrumentation plug to the bottom of the reactor vessel. 2. The method of repairing the bottom-mounted instrumentation nozzle of claim 1 wherein the bottom-mounted instrumentation nozzle is being replaced with the new bottom-mounted instrumentation nozzle including the step of attaching the in-core instrument tube to a bottom end of the new bottom-mounted instrumentation nozzle. 3. The method of repairing the bottom-mounted instrumentation nozzle of claim 1 wherein the new bottom-mounted instrumentation nozzle or the bottom nozzle instrumentation plug is constructed with an integral shoulder that is configured to be welded to the bottom of the reactor vessel. 4. The method of repairing the bottom-mounted instrumentation nozzle of claim 3 wherein either an upper surface on the bottom of the reactor vessel surrounding the thru-opening or the shoulder on the new bottom-mounted instrumentation nozzle or bottom nozzle instrumentation plug is machined to match the contour of the other of either the upper surface on the bottom of the reactor vessel surrounding the thru-opening or the shoulder on the new bottom-mounted instrumentation nozzle or bottom nozzle instrumentation plug. 5. The method of repairing the bottom-mounted instrumentation nozzle of claim 1 wherein the step of sealing an external container over the bottom-mounted instrumentation nozzle includes pressuring a seal on a lip of the external container against the bottom of the reactor vessel by leveraging the external container off of a structural member in a bottom of a reactor cavity in which the reactor vessel is supported or off of other bottom-mounted instrumentation nozzles. 6. The method of repairing the bottom-mounted instrumentation nozzle of claim 5 wherein the seal comprises a double concentric O-ring seal that comprises two O-ring gaskets. 7. The method of repairing the bottom-mounted instrumentation nozzle of claim 6 including a leak-off line between the O-ring gaskets to monitor for leaks. 8. The method of repairing the bottom-mounted instrumentation nozzle of claim 1 wherein the external container includes a drain. 9. The method of repairing the bottom-mounted instrumentation nozzle of claim 1 wherein the external container includes a mechanical or hydraulic jack supported within the interior of the external container and configured to apply the upward force to the bottom-mounted instrumentation nozzle or the bottom nozzle instrumentation plug. 10. The method of repairing the bottom-mounted instrumentation nozzle of claim 9 wherein the mechanical or hydraulic jack is remotely operated. 11. A method of repairing a sealed penetration through a pressure vessel filled above the penetration with a liquid comprising the steps of:installing a plug within or over the penetration in a manner that prevents the liquid in the pressure vessel from leaking to any significant extent through the penetration;sealing an external container over the penetration and against an outside of the pressure vessel to create a substantially leak tight seal between the external container and outside of the pressure vessel;removing at least a portion of a weld between the pressure vessel and the penetration;applying a force on the penetration to remove the penetration from a thru-opening in the pressure vessel;inserting a new penetration through the thru-opening in the pressure vessel or a plug into the thru-opening in the pressure vessel; andsealably attaching the new penetration or plug to the pressure vessel. 12. The method of claim 11 wherein the step of applying the force removes the penetration from the thru-opening into the pressure vessel. 13. The method of claim 11 wherein the new penetration or plug is constructed with an integral shoulder that is configured to be welded to the pressure vessel. 14. The method of claim 13 wherein either a mating surface on the pressure vessel surrounding the thru-opening or a mating surface on the shoulder is machined to match the contour of the other. 15. The method of claim 11 wherein the step of sealing an external container over the penetration includes pressuring a seal on a lip of the external container against the bottom of the reactor vessel by leveraging the external container off of an adjacent structural member. 16. The method of claim 15 wherein the seal comprises a double concentric O-ring seal that comprises two O-ring gaskets. 17. The method of claim 16 including a leak-off line between the O-ring gaskets to monitor for leaks. 18. The method of claim 11 wherein the external container includes a drain. 19. The method of claim 11 wherein the external container includes a mechanical or hydraulic jack supported within the interior of the external container and configured to apply the force to the penetration. 20. The method of claim 19 wherein the mechanical or hydraulic jack is remotely operated.