基于有限元离散的不规则管道几何边界红外瞬态检测识别

doi:10.3969/j.issn.0438-1157.2012.12.010

化工学报 ›› 2012, Vol. 63 ›› Issue (12): 3805-3811.DOI: 10.3969/j.issn.0438-1157.2012.12.010

基于有限元离散的不规则管道几何边界红外瞬态检测识别

吕事桂, 杨立, 范春利

海军工程大学动力工程学院, 湖北武汉 430033

收稿日期:2012-04-25 修回日期:2012-05-30 出版日期:2012-12-05 发布日期:2012-12-05
通讯作者: 吕事桂
作者简介:吕事桂(1986-),男,博士研究生。
基金资助:
国家自然科学基金项目(50906099)。

Identification of irregular pipeline geometry boundary using infrared transient inspection based on finite element discretization

LÜ Shigui, YANG Li, FAN Chunli

College of Power Engineering, Naval University of Engineering, Wuhan 430033, Hubei, China

Received:2012-04-25 Revised:2012-05-30 Online:2012-12-05 Published:2012-12-05
Supported by:
supported by the National Natural Science Foundation of China(50906099).

摘要/Abstract

摘要： 建立了带有不规则腐蚀内边界的管道二维瞬态传热模型,基于有限元法和共轭梯度法的导热反问题求解方法对管道内边界识别问题进行了研究,比较分析了管道外表面稳瞬态温度对内边界变化敏感程度的差异性,指出内边界瞬态检测识别比稳态检测识别更具优越性并利用数值试验进行了验证。同时,考察了测温误差、初始假设等因素对管道内边界瞬态检测识别结果的影响。在较大测温误差的情况下,采用瞬态检测条件从不同初始假设值出发都能准确地反演识别出管道内边界腐蚀后的几何形状,从而证明了算法的有效性和稳定性,表明了红外瞬态检测定量识别管道内边界的可行性。

关键词: 边界识别, 导热反问题, 有限元法, 共轭梯度法, 红外检测

Abstract: A two-dimensional physical and mathematical transient heat transfer model for the pipeline with irregular inner geometry boundary is built.The identification problem of pipeline inner boundary is solved by using finite element method and conjugate gradient method(CGM)-based inverse algorithm.The differences of sensitivities of the transient and steady pipeline outer surface temperature to the inner boundary change are analyzed and certified by a series of numerical simulation experiments,in which the influences of temperature measurement errors and initial inner boundary guesses are tested.It is found that the temperature measurement errors and initial inner boundary guesses have no obvious effect on the pipeline inner boundary identification results when the infrared inspection is carried out in the transient heat transfer state,while the accuracy of the boundary identification results is poor with temperature measurement errors when the infrared inspection is carried out in the steady heat transfer state.Therefore,in the engineering application,in order to identify the inner geometry boundary accurately,the infrared inspection in the transient heat transfer state is more appropriate than that in steady heat transfer state.

Key words: boundary identification, inverse heat conduction problem, finite element method, conjugate gradient method, infrared inspection

中图分类号:

TK38

吕事桂, 杨立, 范春利. 基于有限元离散的不规则管道几何边界红外瞬态检测识别[J]. 化工学报, 2012, 63(12): 3805-3811.

LÜ Shigui, YANG Li, FAN Chunli. Identification of irregular pipeline geometry boundary using infrared transient inspection based on finite element discretization[J]. CIESC Journal, 2012, 63(12): 3805-3811.

参考文献 15

[1]	Zhang Dahu(张大虎).Identification of hazards in pipeline oil transferring and accident prevention[J].Petroleum Products Application Research(石油商技),2004,22(6):20-22
[2]	Liu Huifang(刘慧芳),Zhang Peng(张鹏),Zhou Junjie(周俊杰),Yu Lin(于林).Current state and development trend of internal corrosion detection technology for oil and gas pipeline[J].Pipeline Technique and Equipment(管道技术与设备),2008,5:46-48
[3]	Zhang Qimin(张其敏),Yang Hongdong(严宏东).Leak detection techniques and its evaluation of pipeline[J].Journal of Chongqing University of Science and Technology:Natural Science Edition(重庆科技学院学报:自然科学版),2006,8(2):33-35
[4]	Li Dansong(李丹嵩).Application and development of infrared thermal imaging technology in chemical engineering equipments inspection and testing[J].Shanghai Chemical Industry(上海化工),2010,35(6):26-30
[5]	Jin Guangxi(金光熙),Xu Dan(徐丹),Pan Fenghong(潘凤红),Liu Tingting(刘婷婷).Application of infrared thermographic technique in detecting the thermal loss of petrochemical thermal equipment[J].Infrared Technology(红外技术),2009,31(11):668-670
[6]	Liu Yanmin(刘衍民),Hu Binbin(胡彬彬).Application of infrared imaging technology on special equipment inspection and damage diagnosis[J].Nondestructive Inspection(无损探伤),2008,32(4):37-49
[7]	Zhang Hong(张红),Li Xiaogang(李晓刚),Guo Lijie(郭丽杰).Application and research of infrared software system to evaluate the effect of heat preservation for lines[J].Infrared Technology(红外技术),2004,26(2):72-75
[8]	Zhao Shibin(赵石彬),Zhang Cunlin(张存林),Wu Naiming(伍耐明),Duan Yuxia(段玉霞),Li Yanhong(李艳红).Infrared thermal wave non-destructive inspection for defects of polypropylene pipeline[J].Acta Optica Sinica(光学学报),2010,30(2):456-460
[9]	Shen Gongtian(沈功田),Li Tao(李涛),Yao Zehua(姚泽华),Qiu Hongcheng(邱虹程).Infrared thermography for high temperature pressure pipes[J].Nondestructive Testing(无损检测),2002,24(11):473-476
[10]	Li Bin(李斌),Liu Linhua(刘林华).Geometry boundary identification of unsteady heat conduction based on dual reciprocity boundary element method[J].Proceedings of the CSEE(中国电机工程学报),2009,29(5):66-71
[11]	Li Bin(李斌),Liu Linhua(刘林华).An algorithm for geometry boundary identification of heat conduction problem based on boundary element discretization[J].Proceedings of the CSEE(中国电机工程学报),2008,28(20):38-43
[12]	Chen Yi(陈怡),Tan Yongji(谭永基),Gu Xianglin(顾祥林),Chen Helin(陈贺林).Monitoring the wear-line of blast furnace with inverse problem and genetic algorithm[J].Journal of Fudan University:Natural Science(复旦学报:自然科学版),2006,45(2):170-176
[13]	Fan Chunli(范春利),Sun Fengrui(孙丰瑞),Yang Li(杨立).Algorithm study on identification of pipeline’s irregular inner boundary for infrared thermography[J].Journal of Thermal Science and Technology(热科学与技术),2006,5(2):112-117
[14]	Necat Ozisik M,Hrb Orlande.Inverse Heat Transfer:Fundamentals and Applications[M].London:Taylor & Francis,2000
[15]	Terumi Inagki,Toshimitsu Ishii,Toshikatsu Iwamoto.On the NDT and E for the diagnosis of defects using infrared thermography[J].NDT&E International,1999,32(5):247-257

基于有限元离散的不规则管道几何边界红外瞬态检测识别

Identification of irregular pipeline geometry boundary using infrared transient inspection based on finite element discretization

PDF (PC)

可视化

被引次数

摘要/Abstract

引用本文

使用本文

参考文献 15

相关文章 15

编辑推荐

Metrics

本文评价

[1]	孟祥铠, 孟令超, 马艺, 江锦波, 彭旭东. 多孔质机械密封耦合润滑模型与密封性能分析[J]. 化工学报, 2022, 73(10): 4576-4584.
[2]	文爽, 齐宏, 刘少斌, 任亚涛, 阮立明. 基于EKF和UKF算法非均匀介质热物性参数重建[J]. 化工学报, 2020, 71(4): 1432-1439.
[3]	杨文静, 郝木明, 曹恒超, 袁俊马, 李晗. 基于质量守恒边界条件的下游泵送螺旋槽液膜密封空化分析[J]. 化工学报, 2018, 69(9): 3932-3943.
[4]	李玮, 刘芳, 陈宝明, 魏茂丰, 郜凯凯, 耿文广. 寒冷地区湿传递对多层墙体热湿性能的影响[J]. 化工学报, 2017, 68(S1): 162-168.
[5]	王琳琳, 卢玫, 黄鉴. 基于最小二乘法预测的导热反问题求解[J]. 化工学报, 2016, 67(S1): 103-110.
[6]	杨文静, 郝木明, 李振涛, 任宝杰, 曹恒超, 张伟. 考虑锥度及波度的螺旋槽液膜密封动态特性分析[J]. 化工学报, 2016, 67(12): 5199-5207.
[7]	崔苗, 端维伟, 高效伟. 基于复变量求导法的共轭梯度法及其在热传导反问题边界条件辨识中的应用[J]. 化工学报, 2015, 66(S1): 106-110.
[8]	石宪章, 黄明, 赵振峰, 申长雨, 田中. 气辅成型过程中可压缩空气流动数值模拟[J]. 化工学报, 2013, 64(3): 906-911.
[9]	彭旭东，张岳林，白少先，李纪云，盛颂恩. 转速压力对T型槽干气密封槽型几何结构参数优选值的影响[J]. 化工学报, 2012, 63(2): 551-559.
[10]	吉彦鹏, 马挺, 曾敏, 王秋旺. 对流换热条件下内外翅片管应力分析 [J]. 化工学报, 2011, 62(S1): 86-91.
[11]	范春利，孙丰瑞，杨立. 边界形状的红外识别算法 [J]. CIESC Journal, 2010, 61(11): 2783-2788.
[12]	安巍. 介质辐射换热有限元法的扩散综合加速算法 [J]. 化工学报, 2009, 60(5): 1087-1091.
[13]	赵中, 彭旭东, 盛颂恩, 白少先, 李纪云. 多孔扇形分布端面机械密封性能的数值分析 [J]. 化工学报, 2009, 60(4): 965-971.
[14]	罗明, 黄卡玛, 华伟. 微波化学反应器介质耦合窗应力计算分析与设计 [J]. 化工学报, 2009, 60(11): 2768-2774.
[15]	杨大勇, 刘莹. 粗糙表面微通道电渗流的数值模拟 [J]. 化工学报, 2008, 59(10): 2577-2581.