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Radiation Stability of Crown Ether Used for Decontamination ofRadionuclides from HLW

Published online by Cambridge University Press:  03 September 2012

Vyacheslav M. Abashkin ,
Gennadiy F. Egorov ,
Evgeniy Filippov ,
Anna K. Nardova  and
Igor V. Mamakin
Vyacheslav M. Abashkin
Affiliation:
Russian Research Institute of Chemical Technology, 33 Kashirskoe Ave., Moscow 115230, vs@khimcon.msk.ru
Gennadiy F. Egorov
Affiliation:
Russian Research Institute of Chemical Technology, 33 Kashirskoe Ave., Moscow 115230, vs@khimcon.msk.ru
Evgeniy Filippov
Affiliation:
Russian Research Institute of Chemical Technology, 33 Kashirskoe Ave., Moscow 115230, vs@khimcon.msk.ru
Anna K. Nardova
Affiliation:
Russian Research Institute of Chemical Technology, 33 Kashirskoe Ave., Moscow 115230, vs@khimcon.msk.ru
Igor V. Mamakin
Affiliation:
Russian Research Institute of Chemical Technology, 33 Kashirskoe Ave., Moscow 115230, vs@khimcon.msk.ru
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Abstract

The gamma-ray initiated oxidation of dicyclohexano-18-crown-6 (DCH-6) wasstudied in two-phase system under agitation: nitric acid, aqueous solutionand organic solvent.

The distribution coefficients of radionuclides, hydrodynamic characteristics(phase separation and interface surface tension), and the radiolysisproducts after irradiation at a dose rate (60Co) of 1.7 Gy/s weredetermined. The maximum total dose was 3.O×105 Gy (3.0×107R).

Information

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 465: Symposium II – Scienfific Basis for Nuclear Waste Management XX , 1996 , 595
Copyright
Copyright © Materials Research Society 1997

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References

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