电力与能源前沿

国家核安全局.全国核电运行情况（2025年1-6月）.2025；https://nnsa.mee.gov.cn/ywdt/hyzx/202508/t20250808_1125164.html

机械:核准常态化渐进，核电阀门有望受益；https://www.cnnpn.cn/article/43551.html,2024-09-10.

2024年中核科技研究报告:核电行业复苏趋势强劲，核阀领军企业乘势而起；https://www.vzkoo.com/read/20240403dbdde544732e7efe1a01d835.html,2024

智研咨询.中国核电阀门行业市场供需态势及发展前景研判报告.2025.

罗伯特·雅各布斯.运营管理[M].(第14版).北京：机械工业出版社，2017.Root Cause Analysis and Improvement Strategies for Chip Package Failure-Induced Main Pump Trip in Nuclear Power Units Zhou Hongqing Wang Shiqing Chen LinChina General Nuclear Power Operation Co., Ltd., Shenzhen, Guangdong, 51

, China AbstractThis study investigates the root cause of a main pump trip incident at a Chinese nuclear power plant. The analysis identified a malfunction in the time-delay relay TEC2453 within the control circuit, which failed to perform its designed delay function. This malfunction triggered the main pump protection system during normal flow fluctuations, ultimately causing reactor shutdown. Further investigation revealed that the failure originated from an internal timer chip U3 with a malfunctioning timer. Through comprehensive root cause analysis and experimental verification, it was confirmed that prolonged exposure to moisture intrusion during long-term operation had caused chip packaging failure. This resulted in corrosion of bonding pads and subsequent open circuits between interconnect metallization strips. The paper presents the comprehensive root cause analysis process and pro

poses improvement strategies tailored to practical engineering applications. Keywordstime-delay relay; chip package failure; nuclear power unit; main pump tr

ip芯片封装失效导致核电机组主泵跳闸停堆根本原因分析及改进策略周红清汪世清陈林中广核核电运营有限公司，中国·广东深圳 518000摘要针对国内某核电机组主泵跳闸事件进行原因分析，确认为控制回路中的延时继电器TEC2453故障，原设计延时功能失去，导致正常流量波动工况下触发主泵保护引起停堆；对延时继电器进行故障原因分析，确认为内部定时器芯片U3故障；进一步对定时器芯片失效进行根本原因分析，并复现了故障现象，确认是长期使用环境下，湿气侵入器件塑封内部导致芯片封装失效，引起键合焊盘腐蚀，最终造成互联金属化条之间开路。本文主要介绍了根本原因分析过程，并结合工程应用提出了改进策略。关键词延时继电器；芯片封装失效；核电机组；主泵跳闸【作者简介】周红清（1978-），男，中国云南大理人，本科，高级工程师，从事核电仪控系统的设备管理及研究。1 背景2014年12月，国内某大型商运核电机组满功率运行期间执行定期试验，按程序开启试验阀门后，3号主泵一号轴封泄漏管线压力出现正常波动，引起主泵轴封泄露流量波动，流量高信号动作，触发25秒延时跳主泵逻辑，叠加延时继电器故障失去25秒延时功能，直接导致3号主泵跳闸，触发反应堆紧急停堆。确认事件原因后，更换了故障延时继电器，机组恢复正常运行。