Patent Number: 056132425
Section: claims

1. A solid-waste disposal system for disposing solid waste containing radioactive material, the solid-waste disposal system comprising: a. a producing means for producing water from a first subterranean geological formation;  b. a source of radioactive material;  c. a grinder for receiving radioactive material from the source and reducing the radioactive material to a slurry of microemulsion particle size, a portion of the slurry being soluble in acid;  d. an acidification unit for receiving the slurry from the grinder and treating the slurry with an acid to dissolve the acid soluble portions of the slurry and to produce and disposal brine; and  e. an injecting means for injecting said dilute solution into a second subterranean geological formation.  (a) said second formation being communicated with surfaces through a well penetrating said strata;  (b) said well comprising a bore hole, a casing string within said bore hole, and optionally a tubing string contained within said casing string to prevent flow of said dilute solution into any of said geological strata; and  (c) said well further comprising a cementing means between said bore hole and said casing string to further prevent any leakage of said dilute solution into any of said geological strata.  a. drawing water from a first subterranean formation;  b. grinding solid radioactive waste in a grinding unit to form a slurry of microemulsion particle size, the slurry having a soluble portion and an insoluble portion;  c. treating the slurry with an acid to dissolve the soluble portion of the slurry, producing an effluent having a liquid portion and a solid portion;  d. emulsifying the solid portion of the effluent to a smaller size to develop a solid disposable sludge;  e. mixing together the solid disposable sludge, the liquid effluent, and the water drawn from the first subterranean formation to produce a disposal mixture; and  f. disposing of the disposal mixture in a second subterranean formation. 2. The solid-waste disposal system of claim 1 wherein said radioactive material comprises naturally occurring radioactive materials selected from the group consisting of barium, uranium, radium, and thorium. 3. The solid-waste disposal system of claim 1 wherein said solid waste comprises in major portion alkaline earth sulfates. 4. The solid-waste disposal system of claim 1 wherein said solid waste comprises in major portion barium sulfate. 5. The solid-waste disposal system of claim 1 wherein said solid waste comprises in major portion barium sulfate and said radioactive material comprising in major portion radium. 6. The solid-waste disposal system of claim 1 further comprising a filter device in fluid communication with the acidification unit to prevent the injection of undissolved solid waste into said second subterranean geological formation thereby causing injectivity problems. 7. The solid-waste disposal system of claim 1 wherein said first subterranean formation is a geothermal source having an average formation temperature above 200.degree. F. to facilitate the dissolution of said solid waste and said radioactive material contained therein. 8. The solid-waste disposal system of claim 7 wherein said average formation temperature is above 300.degree. F. 9. The solid-waste disposal system of claim 1 wherein said first subterranean geological formation has an average formation pressure substantially greater than said second subterranean geological formation. 10. The solid-waste disposal system of claim 9 wherein said injecting means involves a naturally available mechanism by which water is driven through the entire system via a pressure difference between said first subterranean formation and said second subterranean formation without any externally applied pumping means. 11. The solid-waste disposal system of claim 1 further comprising outlet means from the acidification unit and valve means or other flow constricting means in fluid communication with the outlet means to maintain a high pressure environment inside said acidification unit to facilitate the dissolution of said solid waste and said radioactive material. 12. The solid-waste disposal system of claim 11 wherein said washing chamber being maintained at a fluid pressure above 1,000 psi. 13. The solid-waste disposal system of claim 11 wherein said washing chamber being maintained at a fluid pressure above 2,000 psi. 14. The solid-waste disposal system of claim 1 wherein said water produced from said first formation containing at least 3% of total dissolved solids to facilitate the dissolution of the solid waste. 15. The solid-waste disposal system of claim 14 wherein said water produced from said first formation containing at least 10% of total dissolved solids to facilitate the dissolution of the solid waste. 16. The solid-waste disposal system of claim 1 wherein said first formation is an aquifer. 17. The solid-waste disposal system of claim 1 wherein said first formation is a partially or wholly depleted hydrocarbon-bearing reservoir. 18. The solid-waste disposal system of claim 1 wherein said second formation is a partially or wholly depleted hydrocarbon-bearing reservoir. 19. The solid-waste disposal system of claim 18 wherein at least a portion of said second formation is partially or completely filled with gaseous components. 20. The solid-waste disposal system of claim 1 wherein said second geological formation is overlaid by a plurality of geological strata wherein: 21. A method of disposing of solid radioactive waste comprising the steps of: 22. The method of claim 21 wherein the first subterranean formation having a formation pressure substantially greater than the second subterranean formation to allow the circulation of the water from said produced water from said first subterranean formation to said second subterranean formation without any externally applied pumping means.