Core optimization of 5 MWth Lead-bismuth cooled Super small Module Reactor (LSMR) based on separative work

Zhong Chen; Zhongliang Lv; Zi Jia Zhao; Baoxin Yuan; Lichao Tian; Jing Jiang

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Core optimization of 5 MWth Lead-bismuth cooled Super small Module Reactor (LSMR) based on separative work

机译：基于分离功的5 MWth铅铋冷却超小型模块反应堆（LSMR）的堆芯优化

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As a concept of Lead-bismuth cooled Super small Module Reactor, LSMR was proposed for achieving high economic quality. In this paper, based on separative work, preliminary core optimization on LSMR was performed by using oxide fuel. The studies were committed to improving the neutron multiplication performance per separative work (keff/SW) under three key design constraints. Subject to the design constraints on the effective multiplication factor, the core radius and the fuel enrichment, the optimization studies had been performed for LSMR. The results showed that the maximum keff/SW was primarily related to the fuel enrichment under imposed design constraints. The maximum keff/SW could be about 4.4E-6 when the fuel enrichment was 19.75% and the core radius was 50 cm based on the specific design.

机译：作为铅铋冷却超小型模块反应堆的概念，提出了LSMR以实现较高的经济质量。本文基于分离工作，通过使用氧化物燃料对LSMR进行了初步的岩心优化。这些研究致力于在三个关键设计约束条件下提高每个分离功的中子增殖性能（keff / SW）。受有效乘数因子，堆芯半径和燃料富集的设计约束的影响，对LSMR进行了优化研究。结果表明，最大keff / SW主要与施加设计约束时的燃料富集有关。根据特定设计，当燃料浓缩度为19.75％，堆芯半径为50？cm时，最大keff / SW约为4.4E-6。

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来源
《Annals of nuclear energy》 |2018年第10期|735-741|共7页
作者
Zhong Chen; Zhongliang Lv; Zi Jia Zhao; Baoxin Yuan; Lichao Tian; Jing Jiang;
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作者单位

College of Liberal Arts and Sciences, National University of Defense Technology,Southwest University of Science and Technology;

College of Liberal Arts and Sciences, National University of Defense Technology;

College of Liberal Arts and Sciences, National University of Defense Technology;

Institute of Nuclear Physics and Chemistry, China Academy of Engineering Physics;

College of Liberal Arts and Sciences, National University of Defense Technology;

College of Liberal Arts and Sciences, National University of Defense Technology;

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正文语种 eng
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关键词
Core optimization; Lead-bismuth cooled Super small Module Reactor; Separative work;

机译：堆芯优化;铅铋冷却超小型模块反应堆;分离工作;

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Core optimization of 5 MWth Lead-bismuth cooled Super small Module Reactor (LSMR) based on separative work

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