Nuclear Engineering and Technology

Korean Nuclear Society (한국원자력학회)
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A PRACTICAL METHOD FOR THE DISPOSAL OF RADIOACTIVE ORGANIC WASTE

  • Published : 2007.12.31
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Abstract

Radioactive organic wastes containing acetone, alcohol, and particularly tributyl phosphate (TBP)/dodecane contaminated with uranium are extracted from the PUREX process and the decontamination of related equipment. An evaporation method that utilizes existing DU oxidation apparatuses and ventilation systems and a typical muffle furnace installed with an aspirating system are adopted. A separation method using phosphoric acid especially for the TBP/dodecane waste is also studied and evaluated. The results show that a simple evaporation process is utilizable for wastes containing acetone or alcohol with a lower boiling point. A modified muffle furnace is more appropriate to dispose directly of organic wastes having a higher boiling point, such as TBP/dodecane, without generating a condensed waste solution. It is recommended that, when the uranium concentration of TBP/dodecane waste is much higher than stipulated levels, separation technology should be applied to remove uranium from the mixture. Each type of solvent after separation can then be considered disposable below the regulatory limit in the modified furnace discussed in this study.

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References

  1. F. Dirks, W. Hempelmann, 'Incineration of Radioactive Waste (Proc. CEC Sem. Arnhem, 1984),' Rep. CEC-EUR-9621, The Incineration Plant of the Karlsruhe Nuc. Resea. Cent., Graham and Trotman, London, 34-47 (1985)
  2. RWE NUKEM GmbH, 'Pyrolysis of Radioactive Organic Waste (2002), www.nukem.de/global/downroads/deutch/Pyrolyse.pdf
  3. J.P. Wilks, and N.S. Holt, 'Wet Oxidation of Mixed Organic and Inorganic Radioactive Sludge Wastes from a Water Reactor,' Waste Management, 10, 197-203 (1990) https://doi.org/10.1016/0956-053X(90)90041-I
  4. International Atomic Energy Agency, 'Predisposal Management of Organic Radioactive Waste', Technical Report Series No.427, IAEA, Vienna (2004)
  5. Kweon H. Kang, Kil J. Kim, Yong C. Seo, et al., 'Oxidation Behavior of U3Si in Air at 250-400 $^{\circ}C$,' J. of Nuclear Materials, 228, 220-226 (1996) https://doi.org/10.1016/S0022-3115(95)00237-5
  6. S. Drobnik, 'Treatment of Organic Waste Solutions Containing Tributyl Phosphate,' KFK-1500, 27-30 (1972)
  7. L. Salomon, H. Eschrich, L. Humblet, 'Treatment and Disposal of Tributyl Phosphate – Kerosene Waste by the Eurowatt Process', Transactions of the Am. Nuc. Soc., 20, 663-666 (1975)

Cited by

  1. Thermal Processing of Liquid Organic Radioactive Wastes Based on Tributyl Phosphate with the Production of Sodium Aluminum Phosphate Glass vol.120, pp.6, 2016, https://doi.org/10.1007/s10512-016-0152-5