Analysis of the Fuel-Loop Characteristics of a Molten-Salt Nuclear Reactor with a Cavity Core

Thermohydraulic validation is a priority for the ZhSR-S [MOSART] molten-salt nuclear transmuter for transuranium elements from the spent nuclear fuel of solid-fuel thermal reactors. In the present article, the results of coupled neutronics and thermohydraulics calculations, based on which the config...

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Bibliographic Details
Published in:Atomic energy (New York, N.Y.) N.Y.), 2019-07, Vol.126 (3), p.156-162
Main Authors: Ignat’ev, V. V., Feinberg, O. S., Smirnov, V. P., Vanyukova, G. V., Lopatkin, A. V.
Format: Article
Language:English
Subjects:
Analysis
Energy industry
Hadrons
Heavy Ions
Molten salt nuclear reactors
Nuclear Chemistry
Nuclear Energy
Nuclear facilities
Nuclear Physics
Nuclear power plants
Nuclear reactors
Physical properties
Physics
Physics and Astronomy
Reactors
Reflectors
Salts
Solid fuels
Spent nuclear fuels
Spent reactor fuels
Thermal reactors
Thermohydraulics
Transuranium elements
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Summary:Thermohydraulic validation is a priority for the ZhSR-S [MOSART] molten-salt nuclear transmuter for transuranium elements from the spent nuclear fuel of solid-fuel thermal reactors. In the present article, the results of coupled neutronics and thermohydraulics calculations, based on which the configuration of the cavity core and fuel loop were chosen, are generalized. The thermohydraulic validation of such a reactor was preceded by the development of an experimental database on the physical properties of the fuel salt with the molar composition 73LiF–27BeF 2 + AnF 3 and 58NaF–15LiF–27BeF 2 + AnF 3 . The optimized 2400 MW(t) ZhSr-S core satisfies the two most important requirements of thermohydraulics: no recirculation or stagnant zones and quite low maximum temperature of the solid reflectors so that they can be used for a long time.
ISSN:1063-4258
1573-8205
DOI:10.1007/s10512-019-00530-4