Pipe Performance in Long Term Operation Framework: Ageing Issues

Volume 4: Student Paper Competition Pub Date : 2021-08-04 DOI:10.1115/icone28-65931

S. A. Cancemi, R. Lo Frano

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Abstract

The Long-Term Operation (LTO) process involves a full screening of structures, systems, and components (SSCs), for ageing assessment in order to verify their residual safety margin is still acceptable. At today, 46% of the operating Nuclear Power Plant (NPP) has lifetime between 31 and 40 years, while 19% is in operation since more than 40 years. LTO currently represents the highest priority for all the nuclear industry. To propose and plan suitable management strategies, first step is to intensify the efforts for studying phenomena that influence the performance of SSCs and, in turn, may threat the plant safe operation. This study deals with the investigation of the performance of a primary piping (Class 1 component of a 2nd Generation PWR) subjected to the effects of alteration of material properties as caused by ageing. In this study it is proposed a numerical investigation of a piping characterized by a complex geometry. Numerical analyses were performed by means of MSC©MARC FE code. The (quantitative) influence of ageing and corrosion processes onto bent pipe are so studied. Particularly, corrosion effects generated from an operation of beyond 35 years are considered. The methodology and results may have an influence on future issues about LTO of NPPs.

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长期运作框架下的管道性能:老化问题

长期运行(LTO)过程包括对结构、系统和部件(ssc)进行全面筛选，进行老化评估，以验证其剩余安全余量仍然是可以接受的。目前，在运行的核电站(NPP)中，46%的寿命在31年至40年之间，19%的寿命超过40年。LTO目前是所有核工业的最高优先事项。为了提出和规划合适的管理策略，首先要加强对影响ssc性能的现象的研究，从而可能威胁到工厂的安全运行。本研究探讨了一种主管道(第二代压水堆1级部件)在老化引起的材料性能变化影响下的性能。本文对具有复杂几何特征的管道进行了数值研究。通过MSC©MARC有限元代码进行数值分析。并定量研究了老化和腐蚀过程对弯管的影响。特别是考虑了超过35年的运行所产生的腐蚀影响。方法和结果可能会对未来有关核电站LTO的问题产生影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 4: Student Paper Competition

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