Study on the temperature distributions in fuel assemblies of lead-cooled fast reactors Online publication date: Sat, 12-Aug-2017
by Gilberto Espinosa-Paredes; Juan-Luis François; Heriberto Sánchez-Mora; Alejandría D. Pérez-Valseca; Cecilia Martín-del-Campo
International Journal of Nuclear Energy Science and Technology (IJNEST), Vol. 11, No. 2, 2017
Abstract: The aim of this paper is to make a comparative study of two concepts of Lead-Cooled Fast Reactor (LFR) fuel assemblies, from a point of view of the thermofluids performance. The sub-channel analysis approach was applied to determine the temperature distribution in the fuel, in the cladding and in the lead-coolant. The mathematical model is fully transient and takes into account the heat transfer in an annular fuel pellet design. The thermofluid is modelled with a mass, energy and momentum balance with thermal expansion effects. The neutronic processes are modelled with point kinetic equations for power generation with feedback fuel temperature and expansion effects. The numerical experiments consider steady-state and transient behaviours. The numerical comparison shows that a hexagonal assembly is an option to compact the size of the LFR core design. This option leads to higher temperature in the fuel and the cladding than in the case of a rectangular assembly design. Results show the LFR with square array is more sensitive to power changes than the hexagonal array at the same nominal power and with the same transient conditions.
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