Editors: | F. Kongoli, S.V. Alexandrovich, D.V. Grigorievich, L.L. Igoryevich, I. Startsev, T.A. Vladimirovich |
Publisher: | Flogen Star OUTREACH |
Publication Year: | 2019 |
Pages: | 193 pages |
ISBN: | 978-1-989820-03-2 |
ISSN: | 2291-1227 (Metals and Materials Processing in a Clean Environment Series) |
Currently, a number of countries are developing new nitride (UN-PuN) fuel for fast-neutron nuclear reactors [1]. At the same time, methods for nitride SNF processing are developed. These methods are proposed to abandon water technologies in favor of pyrochemical methods, which use molten salts [2, 3].
As nitrides are electronically conductive, an initial opening of nitride SNF was suggested to be performed by electrochemical dissolution with the transfer of SNF components into the molten LiCl-KCl eutectic. It turned out, however, that the reaction UN - 3e = U3+ + 0.5N2↑ is accompanied by the UNCl formation reaction. UNCl is an insulator, it covers the anode and dissolution stops. Currently, the research is suspended.
Another method is “soft” chlorination (i.e. without chlorine gas). In the (LiCl-KCl) eut. melt, the following reactions are possible:
UN + 1.5CdCl2 = UCl3 + 1.5Cd + 0.5N2 ΔG = -60.6 kJ/mol at 500°C (1)
PuN + 1.5CdCl2 = PuCl3 + 1.5Cd + 0.5N2 ΔG = -149 kJ/mol at 500°C (2)
Experimental verification, however, revealed that at 500 0C the reactions of formation of a number of other stoichiometric and non-stoichiometric nitrides - UN1.5, UN1.55, UN1.5, UN1.55, UN1.69, UN1.74, UN2 and UNCl proceed along with reaction (1). The UN → UCl3 conversion degree is ~ 30%. The rest of the uranium was found as a black precipitate that consisted of a mixture of UNCl and various nitrides. Using thermodynamic modeling, it was determined that, at a temperature of 750°C and above all nitrides, including UNCl, dissolve in an excess of CdCl2 to form UCl3. The experiment confirmed the calculation results completely. It was also found that the CdCl2 substitution by PbCl2 allows reduction of the process temperature to 650°C, but in this case, a UCl3 + UCl4 mixture forms.
Another likely the first stage of the nitride SNF processing can be voloxidation, i.e. conversion of all nitrides to oxides by heating in air. For example, the uranium oxidation chain is as follows:
UN → (U2N3+UO2) → UO2 → U3O7 → U3O8 → U2O6 (gas) (slowly)
An important advantage of this approach is that we obtain a universal process suitable for processing both nitride and oxide SNF.