Numerical simulation of the effects of localized cladding oxidation on LWR fuel rod design limits using a SLICE-DO model of the FALCON code

Grigori Khvostov

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Numerical simulation of the effects of localized cladding oxidation on LWR fuel rod design limits using a SLICE-DO model of the FALCON code

机译：使用FALCON代码的SLICE-DO模型对局部熔覆氧化对轻水堆燃料棒设计极限的影响进行数值模拟

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A methodology for evaluation of mechanical and thermal effects of localized non-axisymmetric oxidation in zircaloy claddings on LWR fuel reliability is proposed. To this end, the basic capabilities of the FALCON fuel behaviour code are used. Examples of methodology application to adjustment of selected operational limits for modern BWR fuel rods, to capture effects of the excess local oxidation, are presented. Specifically, the limiting rod internal pressure for the onset of cladding lift-off is reduced, depending on initial excess oxidation spot sizes. Also, the power limits for Anticipated Operational Occurrences are adjusted, to preclude fuel melting and cladding failure due to PCMI and PCI-SCC in the affected fuel rods.

机译：提出了一种评估锆石包层局部非轴对称氧化对轻水堆燃料可靠性的机械和热效应的方法。为此，使用了FALCON燃油行为代码的基本功能。本文介绍了一些方法学示例，可用于调整现代BWR燃料棒的选定运行极限，以捕获过量局部氧化的影响。具体地，取决于初始过量的氧化点尺寸，减小了开始包层剥离的极限杆内部压力。此外，调整了预期运行次数的功率限制，以防止由于受影响的燃料棒中的PCMI和PCI-SCC而导致燃料熔化和包层失效。

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《Nuclear engineering and technology》 |2020年第1期|共13页
作者
Grigori Khvostov;
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中图分类原子能技术;
关键词
FALCON codeLWR fuel modelingZircaloy claddingLocal oxidationFuel design criteriaAdjusted operational limits;

机译：FALCON代码LWR燃料建模锆合金包层局部氧化燃料设计标准调整后的运行极限;

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专利

1. Analysis of cladding failure in a BWR fuel rod using a SLICE-DO model of the FALCON code [J] . G. Khvostov Nuclear engineering and technology . 2020,第12期

机译：使用Falcon代码的切片DO模型分析BWR燃料棒中的包层失效
2. Analysis of fuel rod behavior during loss-of-coolant accidents using the BISON code: Cladding modeling developments and simulation of separate-effects experiments [J] . Pastore G., Williamson R. L., Gardner R. J., Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2021,第1期

机译：使用Bison Code的冷却剂事故损失过程中的燃料棒行为分析：包层建模发展和单独效应实验的模拟
3. Parametric Evaluation of SiC/SiC Composite Cladding with UO2 Fuel for LWR Applications: Fuel Rod Interactions and Impact of Nonuniform Power Profile in Fuel Rod [J] . Singh G., Sweet R., Brown N. R., Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2018,第期

机译：用于LWR应用的UO2燃料的SiC / SiC复合材料分组参数评估：燃料棒燃料棒相互作用及燃料棒中的非均匀功率曲线的影响
4. MODELLING AXIAL RELOCATION OF FRAGMENTED FUEL PELLETS INSIDE BALLOONED CLADDING TUBES AND ITS EFFECTS ON LWR FUEL ROD FAILURE BEHAVIOUR DURING LOCA [C] . Lars O. Jernkvist, Ali R. Massih International Conference on Structural Mechanics in Reactor Technology . 2015

机译：球形包层钢管内部的碎片燃料颗粒轴向重塑及其对LOC期间LWR燃料棒失效行为的影响
5. Gap transport in defective nuclear fuel rods: A computer code to predict the oxygen potential in the fuel-to-clad gap of defective nuclear fuel rods [D] . Cole, Christopher John Paul 1999

机译：有缺陷的核燃料棒中的间隙传输：一种计算机代码，用于预测有缺陷的核燃料棒中的燃料/包层间隙中的氧势
6. Numerical Modeling of Ink Widening and Coating Gap in Roll-to-Roll Slot-Die Coating of Solid Oxide Fuel Cell Electrolytic Layer [O] . Seongyong Kim, Jongsu Lee, Minho Jo, 2020

机译：固体氧化物燃料电池电解层卷辊槽模涂层墨水扩大和涂层间隙的数值模拟
7. Analysis of cladding failure in a BWR fuel rod using a SLICE-DO model of the FALCON code [O] . G. Khvostov 2020

机译：使用Falcon代码的切片DO模型分析BWR燃料棒中的包层失效
8. Effect of Fuel Chips on Cladding Stress in Zircaloy Clad Oxide Fuel Rods (LWBR Development Program) [R] . Yerman, J. F. 1978

机译：燃料芯片对Zircaloy复合氧化物燃料棒包覆应力的影响（LWBR开发计划）

Numerical simulation of the effects of localized cladding oxidation on LWR fuel rod design limits using a SLICE-DO model of the FALCON code

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