Supercritical Carbon Dioxide Ligands for Extracting Actinide Metal Ions from Porous Solids | |
Herlinger, Albert W. ; Dietz, Dr. Mark L. | |
Loyola University Chicago/Department of Chemistry (United States) | |
关键词: Explosive Fracturing; Particulates; Isotope Separation; Nickel; Stabilization; | |
DOI : 10.2172/809139 RP-ID : DOE/ER/14928 RP-ID : FG07-98ER14928 RP-ID : 809139 |
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美国|英语 | |
来源: UNT Digital Library | |
【 摘 要 】
Numerous types of actinide-bearing waste materials are found throughout the DOE complex. Most of these wastes consist of large volumes of non-hazardous materials contaminated with relatively small quantities of actinide elements. Separation of these wastes into their inert and radioactive components would dramatically reduce the costs of stabilization and disposal. For example, the DOE is responsible for decontaminating concrete within 7000 surplus contaminated buildings. The best technology now available for removing surface contamination from concrete involves removing the surface layer by grit blasting, which produces a large volume of blasting residue containing a small amount of radioactive material. Disposal of this residue is expensive because of its large volume and fine particulate nature. Considerable cost savings would result from separation of the radioactive constituents and stabilization of the concrete dust. Similarly, gas diffusion plants for uranium enrichment contain valuable high-purity nickel in the form of diffusion barriers. Decontamination is complicated by the extremely fine pores in these barriers, which are not readily accessible by most cleaning techniques. A cost-effective method for the removal of radioactive contaminants would release this valuable material for salvage.
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