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潜水器管道泄漏声发射源定位方法研究(英文)

Research on Acoustic Emission Source Positioning Method for Submersible Pipeline Leakage
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摘要 潜水器管道泄漏产生的声发射信号是连续型信号,不同于突发型信号,连续型信号难以定位。为了解决上述问题,文章对管道泄漏声发射信号进行了详细研究,提出了基于弹性波衰减特性的RMS定位理论,从理论上导出了该方法的定位计算公式。针对潜水器管道泄漏现象进行了实验验证,结果表明该方法不仅可以实时定位而且具有较高的定位精度,为声发射技术应用于潜水器管道泄漏源检测提供了理论依据和技术支持。 Acoustic emission signal generated by the submersible pipeline leak is a continuous sig-nal. Different from the burst-type signal, a continuous signal is difficult to locate. In order to solve the above problems, a detailed study on the pipeline leak acoustic emission signals is carried out. The RMS (root mean square) positioning theory based on elastic wave attenuation characteristics was pro-posed. The positioning calculation formula was derived from the RMS positioning theory. For sub-mersible pipeline leakage phenomenon, the RMS positioning method was validated by experiment. The results show that the method can not only apply real-time position, but also has high positioning accuracy. This study provides theoretical basis and technical support for acoustic emission technique applied to submersible pipeline leak source detection.
作者 韦朋余 曾庆波 岳亚霖 陈颖 张炜 张涛
机构地区 中国船舶科学研究中心
出处 《船舶力学》 EI CSCD 北大核心 2013年第12期1490-1496,共7页 Journal of Ship Mechanics
基金 Supported by Jiangsu Province Ship Advanced Design and Manufacturing Technology Key Laboratory Research Fund(CJ1106)
关键词 潜水器 连续信号 源定位 有效值电压 弹性波 submersible continuous signal source positioning RMS (root mean square) elastic wave
分类号 TB566 [交通运输工程—水声工程] U664.81 [交通运输工程—船舶及航道工程]
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  • 1Miller Ronnie K, Mclntire Paul, eds. Nondestructive Testing Handbook (Vo1. 5) Acoustic Emission Testing[M]. Second edition, Columbus: American Society for Nondestructive Testing, 1987.
  • 2Kitajima A, et al. Acoustic Leak Detection in Piping Systems[R]. Tokyo, Japan: Central Research Institute of Electric Power Industry, 1984.
  • 3Bendat JS, Piersol AG. Engineering Applications of Correlation and Spectral Analysis[M]. New York:John Wiley and Sons Publishing, 1980.
  • 4Kupperman DS, et al. Acoustic leak detection for light water reactors]A]. Proceedings of Qualtest 1[C]. Columbus, OH: American Society for NDT, 1982.
  • 5Greene DA, et al. Acoustic leak detection/location system for solid heated steam generators[A]. Proceedings of the Second International Conference on Liquid Metal Technology in Energy Production[C].La Grange Park IL: American Nuclear Society, 1980.
  • 6Paris P, Erdogan F. A critical analysis of crack propagation laws[J]. Basic Engineering, 1963, 85: 528-584.
  • 7GL(1997). Rule for classification and construction[S]. I-Ship Technology, Part-1, Seagoing Ship, Charter 1-Hull Structures, Section 20 Fatigue Strength. Germanischer Lloyd, 1997.
  • 8GB/T 18182-2000. MetaI pressure vessel acoustic emission examination method[S]. 2000.
  • 9Yang Huaren, Guo Xiaoguang. Welded structure fatigue strength theory[M]. Shenyang: Northeastern University Press, 2002.
  • 10岳亚霖,韦朋余,李盛华,张炜,张晋念,尹强.钛合金焊接接头疲劳裂纹声发射特征研究(英文)[J].船舶力学,2008,12(3):429-439. 被引量:9

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船舶力学
2013年 第12期

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