Computational study on distribution feasibility of radioactive waste transmutation in accelerator driven system

Author:

Al Qaaod Amer1,Pavlovych Volodymyr2,Ridikas Danas3,Gulik Volodymyr4,Amin Esmat5

Affiliation:

1. Physikalisch-Technische Bundesanstalt, Braunschweig, Germany

2. Institute for Nuclear Research, Kyiv, Ukraine

3. International Atomic Energy Agency, Vienna, Austria

4. Institute for Safety Problems of NPP, Kyiv, Ukraine

5. Nuclear and Radiation Regulatory Authority, Cairo, Egypt

Abstract

In this paper, the feasibility of high-level radioactive waste transmutation in accelerator driven system sub-critical reactor assembly, has been studied for two zone's model and with three different core configurations. The inner zone has a fast neutron spectrum and the outer one has a thermal neutron spectrum. The subcritical core is coupled with external neutron source of energy 14 MeV (D-T source). The effects of high level waste isotopes sample (238Pu, 239Pu, 240Pu, 241Pu, 242Pu, 241Am, 243Am, 244Cm, and 245Cm) distribution on the neutron spectrum and burnup performance in the inner zone have been investigated and discussed, by proposed three core configurations non-uniform, uniform, and spiral. The burnup calculations have been performed for one-year operation cycle for all the all proposed models. This work shows that one can effectively transmute most of the actual minor actinides isotopes in the inner fast spectrum zone of the proposed system, with optimal distribution of these isotopes.

Publisher

National Library of Serbia

Subject

Safety, Risk, Reliability and Quality,Nuclear Energy and Engineering

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