Neutronic performance of (ReprocessedU/Th)O2 fuel in CANDU 6 reactor

Abstract

Abstract Utilization of thorium-based fuel in different reactors has been under investigation for several decades. In fact, excellent breeding features, rather flattened distribution of power as well as proliferation resistance of such fuel cycle draws the attention towards utilization of this type of fuel in nuclear power technology. In the present study, the neutronic performance of a typical thorium core loading is addressed. In this configuration, a mixed uranium and thorium oxide is loaded in CANDU 6 reactor. The obtained results determine a total peaking factor of 2.73 for the proposed configuration. The values obtained for the β and the βeff are 332 and 303 pcm respectively. The core reactivity coefficients were more negative comparing the CANDU 6 loaded with natUO2. The initial fissile material loaded in the core increased by a factor of 1.5 after 730 GWd burn-up. The obtained burn-up results show the core reactivity variations were highly positive after 6 and 12 h shut down because of considerably high buildup of 233Pa after 1-year core operation at 2000 MW power.