Patent Number: 
Section: claims

1. An apparatus for the confinement of long-life waste actinide and beryllium mixture in a capsule placed within a neutron moderator material to accelerate the destruction or transmutation of the waste actinide to the stable nonradioactive states of the waste actinide decay series, and said capsule being a double shell, stainless steel vessel containing the waste actinide having a length of about 2.0 inches and a diameter of about 0.75 inches. 2. A method according to claim 1 wherein the waste actinide contents of the capsule may be a single isotope or a mixture of isotopes in a stable dry state, including isotopes mixtures stabilized by glass, resin, ceramic or polymer binders, mixed with beryllium in the appropriate atomic ratios. 3. A method according to claim 2 wherein the waste actinide and beryllium mixture is an alloy. 4. A method according to claim 2 wherein the waste actinide and beryllium mixture is formed as a block or sphere encased in a shell of beryllium. 5. A method according to claim 3 wherein a graphite disk is substantially encased in stainless steel or aluminum, having one or more wells to accept loaded capsules. 6. A method according to claim 3 wherein a graphite component may be a graphite block of regular or irregular shape. 7. A method according to claim 1 wherein one or more capsules containing the waste actinide/beryllium contents are placed within a graphite disk. 8. A method according to claim 7 wherein the graphite disk is sized to fit various DOE Standard Canisters for disposal, or other accepted long-term storage radioactive waste containers. 9. A method according to claim 8 wherein the stainless steel or aluminum encased the graphite is loaded with capsules closed by a welded cover. 10. A method according to claim 9 wherein the graphite disks may be stacked within a Canister or other acceptable container. 11. A method according to claim 9 wherein stacked graphite disks are separated by copper or aluminum disks of the same diameter to aid in heat transfer within the Canister or other acceptable container. 12. A method according to claim 7 wherein crumpled aluminum or other similar impact absorbing material is provided in each capsule well of the graphite disk to provide for axial support and transfer of decay heat. 13. A method according to claim 1 wherein the capsule may be a single shell or double shell configuration having a length and diameter to conform to the design requirements of a specific testing, long-term storage or disposal container. 14. A method according to claim 13 wherein a graphite or beryllium reflector/moderator is of a specified length and diameter to conform to the design of the confined alloy. 15. A preferred method of making an apparatus for passively accelerating the rate of radioactive decay of waste actinides, the method including the steps ofa. mixing a powder form of waste actinide and beryllium in an atomic weight ratio of 1:13 to form a uniform first mixture;b. loading the mixture into a beryllium oxide crucible and subsequently heating the mixture to 1375° F., under vacuum, to achieve a molten alloy;c. shaping the molten alloy in a suitable die forming an ingot;d. loading the ingot into a double shell capsule and closing the inner and outer capsules by welding, inspecting and testing wells to verify sealing;e. preparing a graphite disk to accept sealed capsules by encasing the bottom and sides of the graphite in stainless steel or aluminum, creating wells within the graphite, also lined with stainless steel or aluminum, to form a graphite assembly;f. loading sealed capsules in the wells of the graphite assembly, using crumpled aluminum or similar material as necessary to provide axial support or to improve heat transfer from the capsules to the graphite disk housing; andg. closing the graphite assembly by installing and welding in place a top closure plate. 16. An apparatus comprising long-life waste actinide and beryllium mixture in a capsule placed within a neutron moderator, reflector material incorporated into said capsule, said mixture comprising alpha particle radiation emitted in natural decay which undergoes a subcritical nuclear reaction with adjacent beryllium thereby releasing a fast neutron which is subsequently slowed down or thermalized, and said neutron being retained within the apparatus by said reflector material such that it is available to cause transmutation of other waste actinides within the apparatus and thereby accelerate the destruction or transmutation of the waste actinide to the stable nonradioactive states of the waste actinide decay series.