Neutronics and Thermo-Fluids Simulation of Generic Pebble-Bed Fluoride-Salt-Cooled High-Temperature Reactor

Jin Li; Thomas Downar; Volkan Seker; Dan O’Grady; Rui Hu; Nader Satvat; Shai Kinast

doi:10.1080/00295450.2024.2381282

Neutronics and Thermo-Fluids Simulation of Generic Pebble-Bed Fluoride-Salt-Cooled High-Temperature Reactor

Jin Li, Thomas Downar, Volkan Seker, Dan O’Grady, Rui Hu, Nader Satvat, Shai Kinast

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

The fluoride-salt-cooled high-temperature reactor (FHR) is one of the advanced reactors that has been attracting considerable interest from both the research community and the nuclear industry. To help facilitate the nuclear community’s familiarity with the FHR, Kairos Power has developed a generic FHR (gFHR) benchmark. In the research performed here, this benchmark was used to assess innovative modeling methods that combine stochastic and deterministic computer codes to perform the design and analysis of the gFHR. The Monte Carlo code Serpent 2 was used to generate few-group cross sections that were then used in the neutron diffusion and thermal-fluids code AGREE to perform full-core neutronics and thermal-fluids steady-state and transient core analysis. The Argonne National Laboratory code SAM was then used to model the gFHR system and to simulate the load-follow operation of the gFHR.

Original language	English
Journal	Nuclear Technology
DOIs	https://doi.org/10.1080/00295450.2024.2381282
State	Accepted/In press - 1 Jan 2024
Externally published	Yes

Keywords

gFHR
hybrid methods
Monte Carlo cross-section generation
neutronics thermal-hydraulic coupling

ASJC Scopus subject areas

Nuclear and High Energy Physics
Nuclear Energy and Engineering
Condensed Matter Physics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1080/00295450.2024.2381282

Cite this

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title = "Neutronics and Thermo-Fluids Simulation of Generic Pebble-Bed Fluoride-Salt-Cooled High-Temperature Reactor",

abstract = "The fluoride-salt-cooled high-temperature reactor (FHR) is one of the advanced reactors that has been attracting considerable interest from both the research community and the nuclear industry. To help facilitate the nuclear community{\textquoteright}s familiarity with the FHR, Kairos Power has developed a generic FHR (gFHR) benchmark. In the research performed here, this benchmark was used to assess innovative modeling methods that combine stochastic and deterministic computer codes to perform the design and analysis of the gFHR. The Monte Carlo code Serpent 2 was used to generate few-group cross sections that were then used in the neutron diffusion and thermal-fluids code AGREE to perform full-core neutronics and thermal-fluids steady-state and transient core analysis. The Argonne National Laboratory code SAM was then used to model the gFHR system and to simulate the load-follow operation of the gFHR.",

keywords = "gFHR, hybrid methods, Monte Carlo cross-section generation, neutronics thermal-hydraulic coupling",

author = "Jin Li and Thomas Downar and Volkan Seker and Dan O{\textquoteright}Grady and Rui Hu and Nader Satvat and Shai Kinast",

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AU - Li, Jin

AU - Downar, Thomas

AU - Seker, Volkan

AU - O’Grady, Dan

AU - Hu, Rui

AU - Satvat, Nader

AU - Kinast, Shai

PY - 2024/1/1

Y1 - 2024/1/1

N2 - The fluoride-salt-cooled high-temperature reactor (FHR) is one of the advanced reactors that has been attracting considerable interest from both the research community and the nuclear industry. To help facilitate the nuclear community’s familiarity with the FHR, Kairos Power has developed a generic FHR (gFHR) benchmark. In the research performed here, this benchmark was used to assess innovative modeling methods that combine stochastic and deterministic computer codes to perform the design and analysis of the gFHR. The Monte Carlo code Serpent 2 was used to generate few-group cross sections that were then used in the neutron diffusion and thermal-fluids code AGREE to perform full-core neutronics and thermal-fluids steady-state and transient core analysis. The Argonne National Laboratory code SAM was then used to model the gFHR system and to simulate the load-follow operation of the gFHR.

AB - The fluoride-salt-cooled high-temperature reactor (FHR) is one of the advanced reactors that has been attracting considerable interest from both the research community and the nuclear industry. To help facilitate the nuclear community’s familiarity with the FHR, Kairos Power has developed a generic FHR (gFHR) benchmark. In the research performed here, this benchmark was used to assess innovative modeling methods that combine stochastic and deterministic computer codes to perform the design and analysis of the gFHR. The Monte Carlo code Serpent 2 was used to generate few-group cross sections that were then used in the neutron diffusion and thermal-fluids code AGREE to perform full-core neutronics and thermal-fluids steady-state and transient core analysis. The Argonne National Laboratory code SAM was then used to model the gFHR system and to simulate the load-follow operation of the gFHR.

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KW - Monte Carlo cross-section generation

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ER -

Neutronics and Thermo-Fluids Simulation of Generic Pebble-Bed Fluoride-Salt-Cooled High-Temperature Reactor

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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