Patent Number: 048427748
Section: claims

1. An improved waste disposal site for the above-ground disposal of radioactive wastes which is formed from a plurality of individual, waste-containing tumuli, wherein each tumuli includes a central raised portion bordered by a sloping side portion, comprising at least two ground-level tumuli having mutually adjoining side portions, and an above-ground tumulus disposed over the adjoining side portions, wherein each tumulus includes a deformable floor and roof in order to render each tumulus flexibly conformable with the surrounding terrain in the event of a seismic disturbance, and the roofs of the ground-level tumuli include both an intrusion barrier formed from a plurality of flexibly interlocking structures, and a deformable layer of water-shedding material that forms at least part of the floor of the above-ground tumulus, and wherein each tumulus contains at least one shield wall means for protecting workers from potentially harmful radiation when said tumulus is constructed. 2. An improved waste disposal site as defined in claim 1, wherein each of said interlocking structures includes a plurality of legs, and a connector member for interconnecting said legs. 3. An improved waste disposal site as defined in claim 1, wherein each tumulus contains radioactive wastes of greater and lesser radioactivity which are positioned on different sides of said shield wall means. 4. An improved waste disposal site as defined in claim 1, wherein the slope of each of the side portions of the tumuli is at least one to four. 5. An improved waste disposal site as defined in claim 1, wherein said shield wall means is formed from a flexibly conformable array of wall components. 6. An improved waste disposal site as defined in claim 5, wherein each of said wall components is a container that holds nuclear wastes, wherein the radiation intensity at the surface of each container is no greater than about 100 millirems/hour. 7. An improved waste disposal site for the above-ground disposal of radioactive wastes which is formed from at least three individual, waste-containing tumuli, wherein each tumulus has a deformable floor and roof for rendering each tumulus flexibly conformable with the surrounding terrain in the event of a seismic disturbance, each of which includes a water-shedding, deformable layer of material, said roof also including an intrusion barrier formed from a plurality of flexibly interlocking structures, and the water-shedding, deformable layer of material of the roof of one tumulus forms at least in part the water-shedding, deformable layer of material of the floor of another tumulus, and wherein each tumulus contains at least one shield wall means for protecting workers from potentially harmful radiation when said tumulus is constructed. 8. An improved waste disposal site as defined in claim 7, wherein the roof of each tumulus includes a central raised portion bordered by a sloping side portion. 9. An improved waste disposal site as defined in claim 8, wherein the slope of each said side portion is about one to four. 10. An improved waste disposal site as defined in claim 7, wherein each of said structures includes a plurality of legs which interfit with the legs of adjacent structures. 11. An improved waste disposal site as defined in claim 7, wherein each tumulus contains radioactive wastes of greater and lesser radioactivity which are positioned on different sides of said shield wall means. 12. An improved waste disposal site as defined in claim 7, wherein said water-shedding deformable layer of both said roof and said floor is formed from compacted clay. 13. An improved waste disposal site as defined in claim 7, wherein each floor further includes a layer of water-permeable material that contains natural zeolites to retard the passage of radioactive chemicals through said layer. 14. An improved waste disposal site as defined in claim 13, further including a plurality of drainage conduits disposed at the bottom of said layer of water-permeable material for collecting and directing water to a drainage gallery means. 15. An improved waste disposal site for the above-ground disposal of radioactive wastes comprising a plurality of individual, waste-containing tumuli, each tumulus including a deformable floor and deformable roof for rendering each tumulus flexibly conformable with the surrounding terrain in the event of a seismic disturbance, wherein said floor is formed in part by a deformable layer of water-shedding material, and said roof is likewise formed in part by a deformable layer of water-shedding material, and said roof further includes an intrusion barrier formed from a plurality of flexibly interlocking structures and has a central raised portion, wherein said site includes at least two ground-level tumuli having mutually adjoining side portions, and an above-ground tumulus disposed over the adjoining side portions whose floor is formed in part by the water-shedding deformable layer of material in the roofs of the ground level tumuli, and wherein each tumulus contains at least one shield wall means for protecting workers from potentially harmful radiation when said tumulus is constructed. 16. An improved waste disposal site as defined in claim 15, wherein each floor further includes a layer of water-permeable material disposed on top of its water-shedding deformable layer of material, wherein said water permeable layer contains natural zeolites to retard the passage of radioactive chemicals through said layer. 17. An improved waste disposal site as defined in claim 16, further including a plurality of drainage conduits disposed at the bottom of said layer of water-permeable material for collecting and directing water to a drainage gallery means. 18. An improved waste disposal site as defined in claim 17, further including a radiation detecting means for detecting the level of radiation of said water in said gallery means. 19. An improved waste disposal site as defined in claim 18, wherein said gallery means includes a valve means for diverting the water therein to a treatment plant in the event the radioactivity of the water collected in the gallery means exceeds a selected value. 20. A pyramidal array of tumuli for the above-ground disposal of radioactive wastes, comprising at least two ground-level tumuli and one above-ground tumulus, each having a deformable floor and a roof for rendering each tumulus flexibly conformable with the surrounding terrain in the event of a seismic disturbance, wherein each said floor and roof includes a deformable layer of water-shedding material, and said roof of each includes a ceiling formed from another deformable layer of water-shedding material, and an intrusion barrier disposed between said deformable layers of water-shedding material in said roof and ceiling that is formed from a plurality of flexibly interlocking structures, as well as a central raised portion bordered by a sloping side portion which is supported by an array of nuclear waste packages, and wherein each tumulus contains a shield wall means for protecting workers from potentially harmful radiation during the construction of the array. 21. A pyramidal array of tumuli as defined in claim 20, wherein the floor of each tumulus includes a layer of water-permeable material for supporting said array of nuclear waste packages and draining any water that should collect around said packages. 22. A pyramidal array of tumuli as defined in claim 21, wherein each tumulus includes a plurality of drainage conduits disposed at the bottom of said layer of water-permeable material for collecting and directing water to a drainage gallery means. 23. A pyramidal array of tumuli as defined in claim 22, wherein each tumulus includes a radiation detecting means for detecting the level of radiation of said water in said gallery means, as well as a valve means for diverting the water in said gallery means to a treatment plant in the event that the radioactivity of the water collected in the gallery means exceeds a selected value. 24. A method of constructing a site for the above-ground disposal of radioactive wastes, comprising the steps of a. constructing a deformable floor for a first tumulus that includes a deformable layer of water-shedding material;  b. constructing a shield wall means on said floor capable of blocking radiation from said wastes;  c. depositing an array of packages containing radioactive wastes over said floor and behind said shield wall;  d. constructing a deformable roof over the array of waste packages which includes a deformable layer of water-shedding material, and an intrusion barrier beneath the deformable layer of water-shedding material, said barrier being constructed by overlaying the array of waste packages with a plurality of flexibly interlocking structures;  e. constructing a second tumulus in accordance with steps a-d which is close enough to the first tumulus so that the deformable layers in the roofs of the first and second tumuli adjoin one another; and  f. constructing a third tumulus over the roofs of the first and second tumuli in accordance with steps a-d wherein the mutually adjoining, deformable layers of water-shedding material in said roofs provide the deformable layer of water-shedding material of the floor of the third tumulus. 25. A method of constructing a site for the above-ground disposal of [toxic] radioactive wastes as defined in claim 32, wherein said waste packages contain radioactive wastes, and the surface radiation intensity of some of said packages is higher than others. 26. A method of constructing a site for the above-ground disposal of [toxic] radioactive wastes as defined in claim 25, wherein [the disposal operators load] the waste packages of higher surface radiation intensity are loaded behind the shield wall means when [depositing] said array of packages are deposited over said tumulus floor in order to minimize [their exposure to] the amount of radiation radiated toward persons in the area.