摘要
阀门作为核反应堆系统中的关键能动设备,其可靠性直接决定着反应堆安全及人员安全。针对核电厂常用阀门——电动截止阀,基于既往故障数据分析和结构特点,发现核级电动截止阀的主要故障是位置指示器与行程位置不匹配导致阀门内漏。以此为基础设计了耦合强化试验,模拟综合使用工况下的振动强化效应,使得在较短时间内激发电动截止阀的故障,然后根据故障原因提出以堵转电流控制关阀的方式解决内漏问题。试验结果表明,改进控制方式后以转矩控制机构控制关闭,电动截止阀关闭正常无泄漏。
As the key active equipment in the nuclear reactor system,the reliability of valves directly determines the safety of nuclear reactors and personnel.In this paper,aming at the common valves(electric shut-off valve)in nuclear power plant,and based on the analysis of previous fault data and structural characteristics,it is found that the main fault of the electric shut-off valve is that the position indicator does not match the travel position,resulting in internal leakage of the valve.On this basis,the coupling enhancement test scheme was designed to simulate the vibration strengthening effect under comprehensive conditions.The failure of electric shut-off valve was stimulated in a relatively short period of time in the test.Finally,it was proposed to change the drive control mode to solve the problem of internal leakage of electric shut-off valve according to the cause of fault.The test results show that after improving the control mode,the torque control mechanism is used to control the closing,and the valve is closed normally without leakage.
作者
吴小飞
黄茂丽
张林
聂常华
徐长哲
徐尧
卓文彬
李朋洲
Wu Xiaofei;Huang Maoli;Zhang Lin;Nie Changhua;Xu Changzhe;Xu Yao;Zhuo Wenbin;Li Pengzhou(Nuclear Power Institute of China,Chengdu,610213,China)
出处
《核动力工程》
EI
CAS
CSCD
北大核心
2024年第3期219-223,共5页
Nuclear Power Engineering
关键词
电动截止阀
强化试验
转矩控制机构
改进研究
Electric shut-off valve
Enhancement testing
Torque control mechanism
Improvement research