Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8069984 | Annals of Nuclear Energy | 2013 | 8 Pages |
Abstract
This study introduces a new correction factor to obtain the experimental effective multiplication factor of subcritical assemblies by the point kinetics formulation. The correction factor is defined as the ratio between the MCNP6 prompt neutron decay constant obtained in criticality mode and the one obtained in source mode. The correction factor mainly takes into account the longer neutron lifetime in the reflector region and the effects of the external neutron source. For the YALINA Thermal facility, the comparison between the experimental and computational effective multiplication factors noticeably improves after the application of the correction factor. The accuracy of the MCNP6 computational model of the YALINA Thermal subcritical assembly has been verified by reproducing the neutron count rate, Rossi-α, and Feynman-α distributions obtained from the experimental data.
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Authors
Alberto Talamo, Y. Gohar, S. Sadovich, H. Kiyavitskaya, V. Bournos, Y. Fokov, C. Routkovskaya,