Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8067536 | Annals of Nuclear Energy | 2016 | 7 Pages |
Abstract
A time evolution model was developed to study fuel burnup for the TRIGA Mark II reactor at the University of Pavia. The results were used to predict the effects of a complete core reconfiguration and the accuracy of this prediction was tested experimentally. We used the Monte Carlo code MCNP5 to reproduce system neutronics in different operating conditions and to analyze neutron fluxes in the reactor core. The software that took care of time evolution, completely designed in-house, used the neutron fluxes obtained by MCNP5 to evaluate fuel consumption. This software was developed specifically to keep into account some features that differentiate low power experimental reactors from those used for power production, such as the daily ON/OFF cycle and the long fuel lifetime. These effects can not be neglected to properly account for neutron poison accumulation. We evaluated the effect of 48Â years of reactor operation and predicted a possible new configuration for the reactor core: the objective was to remove some of the fuel elements from the core and to obtain a substantial increase in the Core Excess reactivity value. The evaluation of fuel burnup and the reconfiguration results are presented in this paper.
Related Topics
Physical Sciences and Engineering
Energy
Energy Engineering and Power Technology
Authors
Davide Chiesa, Massimiliano Clemenza, Stefano Pozzi, Ezio Previtali, Monica Sisti, Daniele Alloni, Giovanni Magrotti, Sergio Manera, Michele Prata, Andrea Salvini, Antonio Cammi, Matteo Zanetti, Alberto Sartori,