Patent Number: 
Section: claims

1. A method of at least one of processing and removing radioactive materials from an underwater environment comprising:a) submerging a container having a top, a bottom, and a cavity in a body of water having a surface level, the cavity filling with water;b) positioning radioactive material within the cavity of the submerged container;c) raising the submerged container until the top of the container is above the surface level of the body of water while a major portion of the container remains below the surface level or the body of water, wherein water from the body of water can no longer flow into the cavity; andd) removing bulk water from the cavity while the top of the container remains above the surface level of the body of water and a portion of the container remains submerged. 2. The method of claim 1 wherein step c) further comprises positioning a lid having one or more openings atop the submerged container so as to substantially enclose the cavity. 3. The method of claim 1 wherein the container provides both gamma radiation shielding and neutron shielding. 4. The method of claim 1 wherein the container comprises a cask and a canister positioned within the cask. 5. The method of claim 4 wherein step b) comprises positioning radioactive material within the canister. 6. The method of claim 5 wherein step d) comprises removing bulk water from the canister while a top of the cask remains above the surface level of the body of water and a portion of the cask remains submerged. 7. The method of claim 1 wherein step c) comprises raising the submerged container until the top of the container is between 1 to 12 inches above the surface level of the body of water. 8. The method of claim 7 wherein step d) comprises removing the bulk water from the cavity while at least a major portion of the container remains submerged. 9. The method of claim 1 wherein the radioactive material is spent nuclear fuel rods, and wherein:step a) further comprises submerging the container in the body of water in a substantially vertical orientation;step b) further comprises lowering the spent nuclear fuel rods into the cavity of the submerged container; andstep c) further comprises raising the submerged container in the vertical orientation with a crane until the top of the container is above the surface level of the body of water while a major portion of the container remains below the surface level of the body of water. 10. The method of claim 1 wherein the radioactive material is spent nuclear fuel rods. 11. The method of claim 1 wherein step b) further comprises positioning a lid having one or more openings atop the submerged container so as to substantially enclose the cavity, the method further comprising:e) upon the bulk water being removed from cavity, lifting the container entirely out of the body of water;f) setting the container down in a staging area;g) filling the cavity back up with water; andh) securing the lid to the container. 12. The method of claim 11 wherein step h) comprises welding the lid to the container. 13. A method of at least one of processing and removing high level radioactive materials from an underwater environment comprising:a) providing a container having a cavity having an open top end and closed bottom end, the container having a top;b) positioning a canister having an open top end and a closed bottom end in the cavity of the container to form a container assembly;c) submerging the container assembly in a body of water;d) positioning high level radioactive material in the canister;e) placing a lid atop the canister that substantially encloses the top end of the canister, the lid having one or more holes;f) raising the submerged container assembly until the top of the container is above a surface level of the body of water while a major portion of the container remains below the surface level of the body of water, wherein water from the body of water can no longer flow into the canister; andg) removing bulk water from the canister while the top of the container remains above the surface level of the body of water and a portion of the container remains submerged. 14. The method of claim 13 wherein the high level radioactive material is spent nuclear fuel. 15. The method of claim 13 wherein the container is a cask that provides both neutron and gamma radiation shielding and the canister is hermetically scalable. 16. The method of claim 13 further comprising:h) upon the bulk water being removed from canister, lifting the container assembly entirely out of the body of water;i) setting the container assembly down in a staging area;j) filling the canister back up with water;k) securing the lid to the canister;l) draining the bulk water from the canister;m) drying an interior of the canister and the radioactive materials to a desired dryness level; andn) backfilling the canister with a non-reactive gas and hermetically sealing the canister. 17. A method of removing spent nuclear fuel from an underwater environment and preparing the spent nuclear fuel for dry storage, the method comprising:a) providing a cask having both gamma radiation and neutron shielding properties, the cask having a top, a bottom and a cavity having an open top end and a closed bottom end;b) positioning a canister having an open end in the cavity;c) submerging the cask and canister into an underwater environment, the canister filling with water;d) positioning spent nuclear fuel within the canister;e) placing a lid atop the open canister thereby substantially enclosing the open end of the canister;f) raising the cask and canister until the top of the cask is above a water level of the underwater environment while a major portion of the cask remains below the water level, wherein water from the body of water can no longer flow into the canister;g) removing bulk water from the canister while a portion of the cask remains below the water level utilizes the buoyancy of the water itself to minimize the load experienced by a crane and/or other lifting equipment; andh) raising the entire cask above the water level of the underwater environment. 18. The method of claim 17 further comprising:i) placing the cask and canister in a staging area;j) filling the canister with a neutron absorbing fluid; andk) securing the lid to the canister. 19. The method of claim 18 further comprising:l) drying the spent nuclear fuel within the canister to a desired level of dryness; andm) backfilling the canister with a non-reactive gas and hermetically sealing the canister. 20. A method of at least one of processing and removing radioactive materials from an underwater environment comprising:a) submerging a container having a cavity in a body of water having a surface level, the cavity filling with water;b) positioning radioactive material within the cavity of the submerged container;c) raising a submerged container until a top of the container is above the surface level of the body of water while a major portion of the container remains below the surface level of the body of water; andd) removing bulk water from the cavity while the top of the container remains above the surface level of the body of water and a portion of the container remains submerged, wherein a buoyancy force exerted by the body of water on the container is increased as a result of the removal of bulk water from the cavity.