摘 要:文章以压水堆核电厂卸压箱排放管道为研究对象,按照 RCC-MR 要求,使用管道分析软件 PepS 软件运用有限元方法,对管道在高温下的完整性和稳定性进行了分析。研究了管道在高温下的失效模式、评定准则、材料性能参数确定;分析结果表明卸压箱排放管道能够经受严重事故工况的高温载荷,为正确开展核级管道高温力学分析提供了有效的方法。
关键词:核电厂;管道;PepS;高温;蠕变;有限元
DOI:10.19850/j.cnki.2096-4706.2021.15.044
中图分类号:TP391.4 文献标识码:A 文章编号:2096-4706(2021)15-0163-03
Study on High Temperature Mechanical Analysis Method of Piping System in Nuclear Power Plant Based on PepS
LIU Lang1,2
(1.State Key Laboratory of Nuclear Power Safety Monitoring Technology and Equipment, Shenzhen 518000, China; 2.Shenzhen CGN Engineering Design Co., Ltd., Shenzhen 518000, China)
Abstract: The paper takes the discharge pipeline of pressure relief tank of PWR nuclear power plant as the research object, using the pipeline analysis software PepS and the finite element method to analyze the integrity and stability of the pipe at high temperature according to RCC-MR code. The failure mode, evaluation method and material property parameter determination of piping under high temperature are studied. The analysis results show that the discharge pipeline of the pressure relief tank can withstand the high temperature load under serious accident conditions, and provide an effective method for the correct high temperature mechanical analysis of nuclear grade pipeline.
Keywords: nuclear power plant; piping; PepS; high temperature; creep; finite element
参考文献:
[1] 邵舸,佟立丽,曹学武 . 压水堆核电厂严重事故卸压阀能力评估 [J]. 核科学与工程,2015,35(1):157-162.
[2] 张琨,曹学武 . 压水堆核电厂高压熔堆严重事故序列分析[J]. 原子能科学技术,2008(6):530-534.
[3] RCC-MR. Design and construction rules for mechanical components of FBR nuclear islands [S].AFCEN,2007.
[4] 董碧波 , 陆道纲 . 中国实验快堆高温钠管道蠕变分析方法研究 [C]//第14届全国反应堆结构力学会议.桂林:中国力学学会, 2006:296-298.
[5] 李国青,李筱珍,靳立强,等 .RCC-MR2007 及其对中国 ITER采购包的影响和应用建议 [J].核标准计量与质量,2014(3):8-13.
[6] 龚玮,张小春,王晓艳,等 . 基于 PepS 的高温核一级管道蠕变疲劳分析方法研究 [J]. 核技术,2020,43(3):89-96.
作者简介:刘浪(1983.11—),男,汉族,陕西汉中人,高工,本科,研究方向:核电厂管道力学计算。