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Sensitivity study on criticality safety analysis of multiple misloading within the spent fuel storage cask

机译:富含燃料储存桶内多误造成的敏感性安全性的敏感性研究

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摘要

The objective of this study is to conduct a sensitivity analysis on multiple fuel assembly misloading within the spent nuclear fuel (SNF) cask to evaluate the reactivity change when underburned fuel assemblies are loaded. As the fuel composition changes during burnup, burnup credit has been considered involving several underburned values. The calculations have been performed on the GBC-32 Westinghouse 17 x 17 fuel design involving 1-16 misloaded assemblies with various values of discharge burnups and several different loading patterns. The isotopic depletion and decay analysis have been evaluated using ORIGEN-ARP, while the criticality calculations have been performed using KENO VI Monte Carlo criticality code. The results show that different loading patterns have significant effects on k(eff) for each misloaded assembly. The maximum variation of k(eff) is 0.12040 for six misloaded assemblies, which have 40 different loading configurations. It was also found that one misloaded assembly is acceptable for all values of underburned fuel from 0% to 70% of the minimum value required for loading, while 0% underburned cases are acceptable to be loaded for 1-16 misloaded assemblies. (C) 2020 Elsevier Ltd. All rights reserved.
机译:本研究的目的是对花费核燃料(SNF)桶内的多重燃料组件误导进行灵敏度分析,以评估装载毛毛燃料组件时的反应性变化。随着燃料成分在燃烧过程中的变化时,燃烧的信贷被认为是涉及几个毛细损的价值。已经在GBC-32 Westinghouse 17 x 17燃料设计上进行了计算,涉及具有各种放电燃烧和几种不同的装载图案的各种值的误用组件。使用Origen-ARP评估了同位素耗尽和衰减分析,而使用KENO VI Monte Carlo Crassity Code进行了临界计算。结果表明,不同的装载模式对每个误传组件的K(EFF)有显着影响。 K(EFF)的最大变化为0.12040,用于六个误传组件,其具有40种不同的装载配置。还发现,对于载荷所需的最小值的0%至70%的毛刺燃料的所有值是可接受的一个被误造成的组件,而0%的毛刺病例可以被装载1-16个被误传的组件。 (c)2020 elestvier有限公司保留所有权利。

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  • 来源
    《Annals of nuclear energy》 |2020年第9期|107516.1-107516.11|共11页
  • 作者

    Alrawash Saed; Boravy Muth; Yoo Seung Uk; Han Hyuk; Kim Soon Young; Park Moon-ghu; Park Chang Je;

  • 作者单位

    Sejong Univ Nucl Engn Dept 209 Neungdong Ro Seoul 143747 South Korea|Sejong Univ Nucl Engn Dept Design & Reactor Anal Lab Seoul South Korea;

    Sejong Univ Nucl Engn Dept 209 Neungdong Ro Seoul 143747 South Korea|Sejong Univ Nucl Engn Dept Design & Reactor Anal Lab Seoul South Korea;

    Sejong Univ Nucl Engn Dept 209 Neungdong Ro Seoul 143747 South Korea|Sejong Univ Nucl Engn Dept Design & Reactor Anal Lab Seoul South Korea;

    Sejong Univ Nucl Engn Dept 209 Neungdong Ro Seoul 143747 South Korea|Sejong Univ Nucl Engn Dept Design & Reactor Anal Lab Seoul South Korea;

    RADCORE Co Daedeok Biz Ctr A-516 Techno 4 Ro 17 Daejeon 34013 South Korea;

    Sejong Univ Nucl Engn Dept 209 Neungdong Ro Seoul 143747 South Korea;

    Sejong Univ Nucl Engn Dept 209 Neungdong Ro Seoul 143747 South Korea;

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