Space-dependent kinetics simulation of a gas-cooled fluidized bed nuclear reactor |
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| Authors: | C C Pain J L M A Gomes M D Eaton C R E de Oliveira A P Umpleby A J H Goddard H van Dam T H J J van der Hagen D Lathouwers |
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| Affiliation: | a Computational Physics and Geophysics, T.H. Huxley School of the Environment, Earth Sciences and Engineering, Imperial College of Science, Technology and Medicine, Prince Consort Road, London SW7 2BP, UK;b Interfaculty Reactor Institute (IRI), Delft University of Technology, Mekelweg 15, NL 2629 JB, Delft, The Netherlands |
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| Abstract: | In this paper we present numerical simulations of a conceptual helium-cooled fluidized bed thermal nuclear reactor. The simulations are performed using the coupled neutronics/multi-phase computational fluid dynamics code finite element transient criticality which is capable of modelling all the relevant non-linear feedback mechanisms. The conceptual reactor consists of an axi-symmetric bed surrounded by graphite moderator inside which 0.1 cm diameter TRISO-coated nuclear fuel particles are fluidized. Detailed spatial/temporal neutron flux and temperature profiles have been obtained providing valuable insight into the power distribution and fluid dynamics of this complex system. The numerical simulations show that the unique mixing ability of the fluidized bed gives rise, as expected, to uniform temperature and particle distribution. This uniformity enhances the heat transfer and therefore the power produced by the reactor. |
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