An investigation of the performance of triso fuel and molten fluoride salts

GOMES, D.S.

An investigation of the performance of triso fuel and molten fluoride salts

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Data

2024

Autores IPEN

DANIEL DE SOUZA GOMES

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Engenharias: desafios e soluções nas múltiplas fronteiras do conhecimento

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Resumo

Public opinion has reached a growing consensus that nuclear energy could be an inflection point for mitigating global warming and the shortage of natural resources in the future. The energy demand suffers a rapid increase and can duplicate itself up to 2035. Since 2002, Generation IV has researched at least six designs to substitute nuclear power plants with forty years of operation. A fluoride hightemperature reactor is designed to use tri-structural fuel formed of graphite-matrixcoated particles with a mixture of lithium and beryllium fluorides as a coolant, commonly called FLiBe. However, concisely, the heat transfer models applied to nuclear reactors depend on the Prandtl number correlated to coolant and usage conditions. A pebblebed fluoride-salt-cooled high-temperature reactor, Mark-1, comprises a conceptual project developed at Berkeley in 2016. Then, it performs a theoretical analysis of the core reactor, where we review the thermal properties of fuel and coolant. It compares generation-IV reactor design analysis with options such as heavy liquid metals, coolants, molten salt reactors, and conventional fuels.

Como referenciar

GOMES, D.S. An investigation of the performance of triso fuel and molten fluoride salts. In: OLIVEIRA, ANTONELLA C. de (ed.); HOLZMANN, HENRIQUE A. (org.); BILCATI, GÉSSICA K. (org.). Engenharias: desafios e soluções nas múltiplas fronteiras do conhecimento. Ponta Grossa, PR: Atena, 2024. , cap. 19. p. 259-274. DOI: 10.22533/at.ed.64224240419. Disponível em: https://repositorio.ipen.br/handle/123456789/48765. Acesso em: 09 Mar 2025.

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