Research on the Technology Accuracy of the On-Line Fracture Assessment of Cracked Pipe in NPPs

Volume 1: Nuclear Plant Operation and Maintenance, Engineering and Modification, Operation Life Extension (OLE), and Life Cycle Pub Date : 2022-08-08 DOI:10.1115/icone29-89057

Mingya Chen, M. Yu, Hongbo Gao, Shuang Qi, Lei Lin, D. Xu, Weiqiang Wang, Jinhua Shi, Q. Peng, Guodong Zhang

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Abstract

The cracked pipes usually need to be replaced or conservatively evaluated in the Nuclear Power Plants (NPPs). There is still a lack of effective methods for a real-time crack propagation and safety evaluation based on massive monitoring transient data. From a technical standpoint, there is a need to establish inspection and monitoring technologies. This research has carried out a re-development in the general finite element analysis (FEA) software platform which is based on our research results and the requirements of the RSE-M Code. In this paper, the re-development is introduced firstly. Then, the information of the large pipe test information from France, Japan and China is summarized. Finally, the technology accuracy of the on-line fracture assessment of a cracked pipe in the NPPs is studied. The comparative research results show that the FEA analysis and modeling method of the pipe adopted by the authors in the re-development software is reliable and can meet the requirements for the on-line fracture assessment.

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核电机组裂纹管道断裂在线评估技术精度研究

在核电站中，通常需要对出现裂纹的管道进行更换或进行保守评估。目前还缺乏基于大量监测暂态数据的实时裂缝扩展和安全性评估方法。从技术角度来看，有必要建立检查和监测技术。本研究在本研究成果的基础上，结合RSE-M规范的要求，对通用有限元分析软件平台进行了重新开发。本文首先介绍了再开发。然后，对法国、日本和中国的大型管道试验信息进行了总结。最后，对核电站某管道断裂在线评估的技术精度进行了研究。对比研究结果表明，作者在再开发软件中采用的管道有限元分析和建模方法是可靠的，可以满足在线断裂评估的要求。

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 1: Nuclear Plant Operation and Maintenance, Engineering and Modification, Operation Life Extension (OLE), and Life Cycle

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