Keyway retention system for cryogenic storage tanks

What is claimed is: 1. A cryogenic tank support assembly comprising: an outer tank structure defined by a plurality of circumferential rib members that are disposed adjacent to one another with a gap between adjacent ones of the circumferential rib members; an inner tank structure having a storage volume therein for storing a cryogenic material; at least one key on an outer side of said inner tank structure; and at least one key block comprised of a thermally insulating material that is affixed to an inner side of said outer tank structure and at least partially positioned within the gap between adjacent ones of the circumferential rib members to define at least one keyway in which said at least one key is received, said at least one key block contacting said at least one key to support said inner tank structure in a spaced relation with said outer tank structure such that said inner tank structure does not directly contact said outer tank structure. 2. The assembly of claim 1 , further including: at least one plate extending between the adjacent ones of the circumferential rib members and defining at least one pocket into which the key block extends. 3. The assembly of claim 2 , wherein said pocket is positioned within said gap. 4. The assembly of claim 1 further comprising: a plurality of keys on the outer side of said inner tank structure; and a plurality of key blocks comprised of a thermally insulating material and affixed to an inner side of said outer tank structure to define a plurality of keyways with each said key being received in a corresponding one of said keyways, said plurality of key blocks contacting said keys to support said inner tank structure in a spaced relation with said outer tank structure such that said inner tank structure does not directly contact said outer tank structure. 5. The assembly of claim 4 wherein each said keyway comprises one of: a longitudinally extending gap between adjacent edges of a pair of rectangular key blocks attached to an inside of said outer tank structure; and a gap between an edge of a rectangular key block attached to an inside of said outer tank structure and an end of a rollover brace attached to an inside of said outer tank structure. 6. The assembly of claim 4 wherein said plurality of keyways comprises four keyways and wherein said plurality of keys comprises four keys. 7. The assembly of claim 6 wherein said keys are located at four separate radial locations around said inner tank structure. 8. The assembly of claim 1 , wherein said at least one key and said at least one key block provide the only points of contact between the inner and outer tank structures. 9. The assembly of claim 1 , wherein said at least one keyway includes first and second opposite ends, wherein said at least one key includes first and second opposite projecting ends that respectively project past the first and second opposite ends of the at least one keyway, wherein each of the first and second projecting ends includes at least one slot therein, and wherein the assembly further comprises: at least one shear pin received within each slot and configured to contact an edge of said at least one key block to restrict sliding of said at least one key within said at least one keyway. 10. The assembly of claim 1 further comprising: at least one shim inserted between a surface of said at least one key and said at least one key block defining said at least one keyway. 11. A method of supporting a cryogenic storage tank in a thermally isolated manner, said method comprising: providing at least one key on an outer side of an inner tank structure having a storage volume therein for storing a cryogenic material; providing at least one keyway on an inner side of an outer tank structure, the keyway being comprised of a thermally insulating material affixed to the inner side of the outer tank structure, wherein the keyway includes first and second opposite ends, wherein the key includes first and second opposite projecting ends that respectively project past the first and second opposite ends of the keyway, and wherein each of the first and second projecting ends includes at least one slot therein; positioning the inner tank structure within the outer tank structure with the at least one key being received in the at least one keyway such that the thermally insulating material of the at least one keyway contacts the at least one key to support the inner tank structure in a spaced relation with the outer tank structure wherein the inner tank structure does not directly contact the outer tank structure; and inserting at least one shear pin into each slot to hold the key in a fixed position within the keyway. 12. The method of claim 11 wherein said thermally insulating material comprises a fiberglass epoxy material. 13. The method of claim 11 further comprising: providing a plurality of keys on an outer side of an inner tank structure; providing a plurality of keyways comprised of a thermally insulating material affixed to the inner side of said outer tank structure; and positioning the inner tank structure within the outer tank structure with each said key being received in a corresponding one of the keyways such that the thermally insulating material of the keyways contact the keys to support the inner tank structure in a spaced relation with the outer tank structure wherein the inner tank structure does not directly contact the outer tank structure. 14. The method of claim 13 wherein said providing said plurality of keyways comprises: attaching a pair of rectangular blocks of thermally insulating material to an inside of said outer tank structure such that there is a longitudinally extending gap between adjacent edges of said blocks; and attaching a rectangular block of thermally insulating material and a rollover brace of thermally insulating material to an inside of said outer tank structure such that there is a gap between an edge of said block and an end of said brace. 15. The method of claim 13 wherein said plurality of keyways comprises four keyways and wherein said plurality of keys comprises four keys. 16. The method of claim 15 wherein said keys are located at four separate radial locations around said inner tank structure. 17. The method of claim 16 wherein said radial locations comprise three o'clock, six o'clock, nine o'clock and twelve o'clock locations. 18. The method of claim 11 further comprising: inserting at least one shim between a surface of said at least one key and said at least one keyway.