|本期目录/Table of Contents|

[1]王虹富,樊建春.套管损伤磁记忆检测信号定量研究[J].中国安全生产科学技术,2016,12(12):116-120.[doi:10.11731/j.issn.1673-193x.2016.12.020]
 WANG Hongfu,FAN Jianchun.Quantitative study on magnetic memory detection signal of casing damage[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2016,12(12):116-120.[doi:10.11731/j.issn.1673-193x.2016.12.020]
点击复制

套管损伤磁记忆检测信号定量研究
分享到:

《中国安全生产科学技术》[ISSN:1673-193X/CN:11-5335/TB]

卷:
12
期数:
2016年12期
页码:
116-120
栏目:
现代职业安全卫生管理与技术
出版日期:
2016-12-30

文章信息/Info

Title:
Quantitative study on magnetic memory detection signal of casing damage
文章编号:
1673-193X(2016)-12-0116-05
作者:
王虹富樊建春
(中国石油大学(北京) 机械与储运工程学院,北京 102249)
Author(s):
WANG Hongfu FAN Jianchun
(China University of Petroleum (Beijing), Beijing 102249, China)
关键词:
套管壁厚套管壁厚变化量磁记忆信号特征参量信号分析与处理
Keywords:
casing thickness casing thickness variation characteristic parameters of magnetic memory signal signal analysis and processing
分类号:
X937
DOI:
10.11731/j.issn.1673-193x.2016.12.020
文献标志码:
A
摘要:
在油气生产过程中,井下套管损伤会造成井况恶化,致使正常井转变为套损井。为了防止套损井的出现和安全事故的发生,有必要对套管进行早期损伤检测。采用金属磁记忆检测技术,开展了实验研究。实验中,通过对套管内壁环切,将套管壁厚设计为等值递增和不等值递增两种形式;根据实验数据,对磁记忆检测信号梯度值、信号梯度波峰值及信号梯度峰宽值等特征参量与壁厚、壁厚变化量的定量关系进行拟合。结果表明:磁记忆检测信号梯度值、信号梯度波峰值及信号梯度峰宽值等特征参量,可以很好的表征套管壁厚的变化情况;信号梯度值与套管壁厚呈线性递增关系;信号梯度波峰值和信号梯度峰宽值均与套管壁厚变化量呈线性递增关系。该试验结果有助于完善磁记忆检测技术的定量化研究和利用磁记忆原理检测套管损伤的评价体系。
Abstract:
In the process of oil and gas production, the downhole casing damage can cause the worsening well condition, leading to the transition from normal well into casing damage well. In order to prevent the appearance of casing damage well and the occurrence of safety accident, it is necessary to make an early damage detection of the casing. The experimental study was carried out by using the metal magnetic memory testing technology. In the experiment, the casing thickness was designed as two forms including equivalent increment and nonequivalent increment through the ring cutting of inner casing. According to the experimental data, the quantitative relationship between the characteristic parameters of magnetic memory detection signal, such as the gradient value, gradient wave peak value, gradient peak width value and so on, and the casing thickness and the casing thickness variation was fitted. The results showed that the characteristic parameters of the magnetic memory detection signal can represent the change situation of casing thickness well. The signal gradient value presents a linear increasing relationship with the casing thickness, and both the signal gradient wave peak value and signal gradient peak width present the linear increasing relationship with the casing thickness variation. The experimental results are helpful to perfect the quantitative study of magnetic memory testing technique and the evaluation system for magnetic memory testing of casing damage.

参考文献/References:

[1]马振国.用磁记忆检测技术预测井下套管故障[J].石油矿场机械,2004,33(6):99-101.MA Zhenguo. Forecast the malfunction of borehole casing by magnetism memory technology[J].Oil Field Equipment,2004,33(6):99-101.
[2]李军,陈勉,张辉.定向井套管应力随地应力条件的变化规律研究[J].石油学报,2005,26(1):109-112.LI Jun, CHEN Mian, ZHANG Hui. Study on varying rules of casing stress in directional hole with in-situ stress conditions[J].Acta Petrolei Sinica, 2005, 26(1):109-112.
[3]Doubov A A. Screening of weld quality using the metal magnetic memory[J].Welding in the Word,1988,41(3):196-199.
[4]温伟刚,萨殊利.金属磁记忆检测的机理及实现[J].北方交通大学学报,2002,26(4):67-70.WEN Weigang, SA Shuli. Mechanism and implementation of magnetic memory metal diagnostic technique[J].Journal of Northern Jiaotong University, 2002, 26(4):67-71.
[5]张静,樊建春,王培玺,等. 套管损伤磁记忆检测信号的量化识别方法[J]. 石油机械,2012,40(8):24-28.ZHANG Jing, FAN Jianchun, WANG Peixi, et al. Quantitative identification method for magnetic memory detection signal of casing damage[J]. China Petroleum Machinery, 2012,40(8):24-28.
[6]胡先龙,池永滨.磁记忆诊断技术中应力集中水平定量评估方法[J].华北电力技术,2005,3(6):9-13.HU Xianlong,CHI Yongbin. Quantitative evaluation method of stress concentration in magnetic memory diagnosis technique[J].North China Electric Power, 2005,3(6):9-13.
[7]章彬斌,梁斌.基于金属磁记忆方法的压力容器对接焊缝应力测试[J].无损检测,2011,33(3):31-33.ZHANG Binbin,LIANG Bin. Stress inspection of pressure vessel butt weld based on metal magnetic memory technique[J].Nondestructive Testing, 2011,33(3):31-33.
[8]任吉林,罗声彩,陈曦,等.磁记忆切向分量信号的检测试验[J].无损检测,2011,33(12):1-5.REN Jilin,LUO Shengcai,CHEN Xi, et al. Tangential component signals of metal magnetic memory testing[J]. Nondestructive Testing, 2011, 33(12):1-5.
[9] 梁冰.油井金属套管应力磁记忆检测仪[J]. 石油仪器,2014,28(6):45-46,49.LIANG Bing. Stress magnetic memory detector of the metal casing of oil well[J].Petroleum Instruments,2014,28(6):45-46,49.
[10]张卫民,DOUBOV A A, 孙海涛,等.高强度钢磨削时的金属磁记忆现象初探[J].兵工学报,2005,26(3):375-378.ZHANG Weimin, Doubov AA,SUN Haitao,et al. The metal magnetic memory phenomenon of high strength steel in theprocess of grinding[J]. Acta Armamentaii, 2005, 26(3):375-378.
[11]陈玉玲,葛森,吴淼.应力集中引起的金属磁记忆现象的研究[J].中国矿业大学学报,2004,33(5):592-595.CHEN Yuling,GE Sen,WU Miao. Study of metal magnetic memory induced by stress concentration[J]. Journal of China University of Mining Technology, 2004, 33(5):592-595.
[12]宋凯,唐继红,钟万里,等.铁磁构件应力集中的有限元分析和磁记忆检测[J].材料工程,2004(4):40-42, 48.SONG Kai,TANNG Jihong,ZHONG Wanli,et al. Finite element analysis and magnetic memory testing of ferromagnetism items[J].Materials Engineering, 2004(4):40-42,48.
[13]刘青昕,刘兴斌,陈茂龙.磁记忆法检测井下金属套管应力的实验研究[J].大庆石油地质与开发,2006,25(2):100-102.LIU Qingxin, LIU Xingbin, CHEN Maolong. Experimental research on download metal casing stress detection with the application of magnetic memory method[J].Petroleum Geology & Oilfield Development in Daqing, 2006, 25(2):100-102.
[14]齐立娟,樊建春,张来斌,等. 磁记忆检测技术在射孔套管安全评价中的应用[J]. 石油机械,2012,40(8):52-55.QI Lijuan, FAN Jianchun, ZHANG Laibin, et al. Application of the magnetic memory testing technology in perforation casing safety assessment[J]. China Petroleum Machinery, 2012,40(8):52-55.
[15]张卫民,董韶平,张之敬.金属磁记忆检测技术的现状与发展[J].中国机械工程,2003,14(10):892-896.ZHANG Weimin, DONG Shaoping,ZHANG Zhijing. Status and development of metal magnetic memory testing technique [J]. China mechanical engineering, 2003, 14(10):892-896.

相似文献/References:

备注/Memo

备注/Memo:
中海油有限公司综合科研项目(YXKY-2015-ZY-09)
更新日期/Last Update: 2017-01-13