Autor: |
Remerowski, Mary Lynn, Dozhier, C., Krenek, K., VanPelt, C. E., Reimus, M. A., Spengler, D., Matonic, J., Garcia, L., Rios, E., Sandoval, F., Herman, D., Hart, R., Ewing, B., Lovato, M., Romero, J. P. |
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Zdroj: |
AIP Conference Proceedings; 2005, Vol. 746 Issue 1, p806-814, 9p |
Abstrakt: |
Pu-238 heat sources are used to fuel radioisotope thermoelectric generators (RTG) used in space missions. The demand for this fuel is increasing, yet there are currently no domestic sources of this material. Much of the fuel is material reprocessed from other sources. One rich source of Pu-238 residual material is that from contaminated combustible materials, such as cheesecloth, ion exchange resins and plastics. From both waste minimization and production efficiency standpoints, the best solution is to recover this material. One way to accomplish separation of the organic component from these residues is a flameless oxidation process using molten salt as the matrix for the breakdown of the organic to carbon dioxide and water. The plutonium is retained in the salt, and can be recovered by dissolution of the carbonate salt in an aqueous solution, leaving the insoluble oxide behind. Further aqueous scrap recovery processing is used to purify the plutonium oxide. Recovery of the plutonium from contaminated combustibles achieves two important goals. First, it increases the inventory of Pu-238 available for heat source fabrication. Second, it is a significant waste minimization process. Because of its thermal activity (0.567 W per gram), combustibles must be packaged for disposition with much lower amounts of Pu-238 per drum than other waste types. Specifically, cheesecloth residues in the form of pyrolyzed ash (for stabilization) are being stored for eventual recovery of the plutonium. © 2005 American Institute of Physics [ABSTRACT FROM AUTHOR] |
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