Journal Article10.1016/j.apenergy.2023.121404
Superstructure design and optimization on closed Brayton cycle system of fluoride-salt-cooled high-temperature advanced reactor
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TL;DR: In this article , a closed Brayton cycle was used to optimize the superstructure design of a high temperature Advanced Reactors (FuSTAR) to achieve the best performance in terms of thermal efficiency.
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About: This article is published in Applied Energy. The article was published on 01 Oct 2023. The article focuses on the topics: Brayton cycle & Recuperator.
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Citations
Fluoride-salt-cooled high-temperature advanced reactor (FuSTAR): An integrated nuclear-based energy production and conversion system
Da-Lin Zhang,Xinyu Li,Dianqiang Jiang,Xing Zhou,Xindi Lv,Shichang Yun,Wenqiang Wu,Xuanang He,Haoyang Li,Xin Min,Kailong Chen,Wenxi Tian,Suizheng Qiu,Guanghui Su,Quanbin Zhao,Yao Fu,Chuntao Tang,Wenbin Zhuo,Jinggang Li,Jiaxu Zuo +19 more
TL;DR: The Fluoride-Salt-cooled high-Temperature Advanced Reactor (FuSTAR) system integrates nuclear energy with other sources to address energy shortages and resource concentration, featuring a novel fuel design, thermal transport system, and thermoelectric conversion system with inherent safety and potential for high-value-added processes.
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Exergy analysis of biomass and nuclear hydrogen production system
Shuo Guo,Da-Lin Zhang,Xinyu Li,Xuanang He,Hongda Wang,Jian Deng,Xisi Zhang,Wenxi Tian,Suizheng Qiu,Guanghui Su +9 more
TL;DR: This study examines exergy analysis of a biomass-nuclear hydrogen production system, utilizing a small Fluoride-Salt-cooled high-Temperature Advanced Reactor (FuSTAR), and finds that material exergy consumption is the main factor affecting exergy losses, with a total exergy consumption of 1.47 × 109 kJ/h.
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Study on tritium transport characteristics in fluoride-salt-cooled high-temperature advanced reactor
Haoyang Li,Da-Lin Zhang,Hao Qin,Xinyu Li,Jian Deng,Wenxi Tian,Guanghui Su,Suizheng Qiu +7 more
TL;DR: This study investigates tritium transport characteristics in a fluoride-salt-cooled high-temperature advanced reactor (FuSTAR), analyzing production, adsorption, diffusion, dissolution, and permeation, and estimates a tritium emission dose of 0.1674 mSv/a.
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Thermal-mechanical influence aspects and evaluation of helical cruciform single rod in fluoride-salt-cooled high-temperature advanced reactor
Yiwen Chen,Dalin Zhang,Dianqiang Jiang,Wei Li,Qi Lu,Wenxi Tian,Suizheng Qiu,G.H. Su +7 more
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Pre-Conceptual Design of a Fluoride-Salt-Cooled Small Modular Advanced High Temperature Reactor (SmAHTR)
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