UNCERTAINTY CONTRIBUTION TO FINAL IN-RACK K(95/95) FROMTHE IN-CORE K.. CRITERION METHODOLOGY FOR SPENT FUELSTORAGE RACK CRITICALTY SAFETY ANALYSES

机译：最终机架K（95/95）的不确定性贡献燃料内部的K ..准则方法储存架关键安全性分析

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The in-core k∞, criterion methodology is identified as an appropriate technique for ensuring compliance with the 0.95 k_(eff) limit for spent fuel pool storage systems. Equations to define the uncertainty associated with a linear fit of the in-core to in-rack reactivity are presented. A method for determining an appropriate lattice for use in bias and tolerance studies is also reported. A study of 12 BWR lattices is used to establish the typical total contribution to the maximum K(95/95) of the rack system from the uncertainty associated with the in-core K∞ criterion methodology.

机译：核内k∞准则方法学被确定为是确保符合乏燃料池存储系统0.95 k_（eff）限制的合适技术。提出了定义与堆芯与架内反应性线性拟合相关的不确定性的方程式。还报告了一种确定用于偏差和公差研究的合适晶格的方法。对12个BWR晶格的研究用于确定与核心K∞准则方法相关的不确定性对机架系统的最大K（95/95）的典型总贡献。

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《International conference on the physics of reactors;PHYSOR 2010》|2011年|p.3332-3339|共8页
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John C. Hannah; Walid A. Metwally; Vernon W. Mills;
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中图分类反应堆基础理论;
关键词
Criticality; Spent nuclear fuel; Uncertainty; In-core K_(inf) Methodology;

机译：关键程度;乏核燃料;不确定;核心K_（inf）方法;

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1. UNCERTAINTY CONTRIBUTION TO FINAL IN-RACK K(95/95) FROM THE IN-CORE K.. CRITERION METHODOLOGY FOR SPENT FUEL STORAGE RACK CRITICALTY SAFETY ANALYSES [C] . John C. Hannah, Walid A. Metwally, Vernon W. Mills International conference on the physics of reactors . 2010

机译：来自核心内k的最终机架K（95/95）的不确定性贡献..花费燃料储存架的标准方法关键安全分析

UNCERTAINTY CONTRIBUTION TO FINAL IN-RACK K(95/95) FROMTHE IN-CORE K.. CRITERION METHODOLOGY FOR SPENT FUELSTORAGE RACK CRITICALTY SAFETY ANALYSES

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