Neutronics evaluation of a super-deep-burn with TRU Fully Ceramic Microencapsulated (FCM) fuel in CANDU

Donny Hartanto, Yonghee Kim, Francesco Venneri

Research output: Contribution to journalArticlepeer-review

14 Scopus citations

Abstract

One of the potential approaches for dealing with spent nuclear fuel in order to ensure the sustainable development of the nuclear energy is to fully utilize (transmute) the transuranics (TRU) in nuclear reactors. The CANDU reactor has an extremely high neutron economy which is necessary for an efficient TRU burning. The current CANDU fuel elements are unable to achieve the high burnup required to transmute the TRUs. In this paper, a special nuclear fuel called FCM (Fully Ceramic Microencapsulated) is introduced to achieve a super-deep-burn of the TRUs and to tackle the issue of fuel element integrity. In the FCM fuel, the conventional TRISO fuel particles are randomly dispersed in a fully dense SiC matrix and the FCM fuel is expected to be able to accommodate an extremely high burnup. The core performances and characteristics were analysed from the neutronics perspective through the fuel lattice analysis. The fuel depletion calculations were conducted using the Serpent Monte Carlo code and the fuel discharge burnup was determined based on the non-linear reactivity theory. Kinetic and major safety parameters including the fuel temperature coefficient, void reactivity, and coolant temperature coefficient were also evaluated.

Original languageEnglish
Pages (from-to)261-269
Number of pages9
JournalProgress in Nuclear Energy
Volume83
DOIs
StatePublished - Aug 1 2015
Externally publishedYes

Funding

This research was supported by Korea Advanced Institute of Science and Technology (KAIST) ( G04110011 ).

Keywords

  • CANDU
  • FCM
  • Serpent lattice calculation
  • Super-deep-burn
  • TRISO
  • TRU

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