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Non-Destructive Method by Gamma Sampling Measurements for Radiological Characterization of a Steam Generator: Physical and Numerical Modeling for ANIMMA (23-27 June 2013)

机译：γ采样测量对蒸汽发生器放射性表征的γ采样测量：Animma的物理和数值模型（2013年6月23日27日）

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The radiological characterization of a steam generator consists of evaluating the global radiological activity in the tube bundle. In this paper, we present a non-destructive method and the results analysis of the gamma sampling measurements from a sample of U-tubes in the bundle. On site, the implementation of the methodology is fairly easy. But the analysis of the results is more complicated due to the long path of the gamma ray (from ~(60)Co quite penetrating), and also the heterogeneous activity of U-tubes bundle, which have not the same life cycle. We explain why the periodic spatial arrangement complicates also the analysis. Furthermore, we have taken into account the environment of all tubes measured because of all the external influence activity of others U-tubes (the nearest, the most distant and potential hot spot). A great amount of independent influence coefficient had to be considered (roughly 18 million). Based on a physical and numerical modeling, and using a Cholesky algorithm solving the problem and saving time machine.

机译：蒸汽发生器的放射学表征包括评估管束中的全局放射活性。在本文中，我们提出了一种非破坏性的方法和鼠笼中U形管样品的伽马采样测量结果分析。在现场，方法的实施相当容易。但是，由于伽马射线的长路径（来自〜（60）Co非常渗透），对结果的分析更加复杂，以及U形管束的异质活性，其具有不同的生命周期。我们解释了为什么周期性空间安排也复杂化分析。此外，我们考虑了所有管道的环境，因为他人U形管的所有外部影响活动（最近，最遥远和潜在的热点）。必须考虑大量的独立影响系数（大约1800万）。基于物理和数值建模，并使用解决问题和节省时间机器的弦算法。

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《ANIMMA 2013 》|2013年||共4页
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G. Auge; B. Rottner; C. Dubois;
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中图分类 TL-532;
关键词
Cholesky algorithm; Gamma measurement; Monte-Carlo method; Non-destructive examination; Steam generator;

机译：Cholesky算法;伽玛测量;蒙特卡罗方法;无损检查;蒸汽发生器;

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机译：HTR-PM蒸汽发生器流量测量方法的实验与数值研究
2. Numerical Investigation of Mass Transfer in the Flow Path of the Experimental Model of the PGV-1500 Steam Generator's Steam Receiving Section with Two Steam Nozzles [J] . L. A. Golibrodo, A. A. Krutikov, Yu. N. Nadinskii, Thermal engineering . 2014 ,第10期

机译：具有两个蒸汽喷嘴的PGV-1500蒸汽发生器的蒸汽接收段实验模型在流路中传质的数值研究
3. Methodology for non-destructive assessment of integrity of steam generator shell welds [J] . S. Thirunavukkarasu, B.P.C. Rao, G.K. Sharma, International journal of structural integrity . 2011 ,第2期

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4. Non-Destructive Method by Gamma Sampling Measurements for Radiological Characterization of a Steam Generator: Physical and Numerical Modeling for ANIMMA (23-27 June 2013) [C] . G. Auge, B. Rottner, C. Dubois ANIMMA 2013 . 2013

机译：γ采样测量对蒸汽发生器放射性表征的γ采样测量：Animma的物理和数值模型（2013年6月23日27日）
5. High-Speed Particle-Laden Flows: Eulerian-Lagrangian Methods, Multi-Scale Modeling and Numerical/Physical Instabilities. [D] . Davis, Sean Lin Sheng. 2015

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6. Determining Conditions for Thermoplastic Processing Guaranteeing Receipt of High-Quality Wire Rod for Cold Upsetting Using Numerical and Physical Modelling Methods [O] . Konrad Laber, Marcin Knapiński 2020

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8. Numerical Methods for Thermally Expandable Two-Phase Flow - Computational Techniques for Steam Generator Modeling [R] . Hall, C. A., Porsching, T. A., Dougall, R. S. 1980

机译：热膨胀两相流数值计算方法 - 蒸汽发生器建模计算技术

Non-Destructive Method by Gamma Sampling Measurements for Radiological Characterization of a Steam Generator: Physical and Numerical Modeling for ANIMMA (23-27 June 2013)

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