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  • 1. Madic, C., Testard, F., Hudson, M., Liljenzin, J. -O., Christiansen, B., Ferrando, M., Facchini, A., Geist, A., Modolo, G., Gonzalez-Espartero, A., & De Mendoza, J. (2004). PARTNEW New solvent extraction processes for minor actinides. Final report. CEA. (Report CEA-R-6066).

  • 2. Aoki, S. (2002). Research and development in Japan on long-lived nuclide partitioning and transmutation technology. Prog. Nucl. Energy, 40, 343-348.

  • 3. Salvatores, M., Slessarev, I., Ritter, G., Fougeras, P., Tchistiakov, A., Youinou, G., & Zaetta, A. (1998). Long-lived radioactive waste transmutation and the role of accelerator driven (hybrid) systems. Nucl. Instrum. Methods Phys. Res. Sect. A-Accel. Spectrom. Dect. Assoc. Equip., 414, 5-20.

  • 4. Mtingwa, S. K. (2005). Feasibility of transmutation of radioactive elements. In An international spent nuclear fuel storage facility-exploring a Russian site as a prototype: Proceedings of an international workshop (pp. 30-49). The National Academies Press: Washington, DC.

  • 5. Todd, T., Law, J., Herbst, R., Lumetta, G., & Moyer, B. (2000). Treatment of radioactive wastes using liquid-liquid extraction technologies-fears, facts, and issues. In Waste Management 00, 27 February - 2 March 2000. Tucson, AZ, USA.

  • 6. Anderson, H., Newton, M., Asprey, L., & Richmond, C. (1960). U.S. Patent No. 2,924,506. California: U.S. Patent and Trademark Offi ce.

  • 7. Aneheim, E., Ekberg, C., Fermvik, A., Foreman, M. R. S. J., Retegan, T., & Skarnemark, G. (2010). A TBP/BTBP-based GANEX separation process. Part 1: Feasibility. Solvent Extr. Ion Exch., 28, 437-458.

  • 8. Löfström-Engdahl, E., Aneheim, E., Ekberg, C., Foreman, M., & Skarnemark, G. (2013). Comparison of the extraction as a function of time in two GANEX solvents: Infl uence of metal loading, interfacial tension, and density. Solvent Extr. Ion Exch., 31, 604-616.

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  • 10. Halleröd, J., Ekberg, C., Foreman, M., Löfström- -Engdahl, E., & Aneheim, E. (2015). Stability of phenyl trifl uoromethyl sulfone as diluent in a grouped actinide extraction process. J. Radioanal. Nucl. Chem., 304, 287-291.

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