Pipe irregularities mapping using tomographic instrumentation system

Journal of Petroleum and Gas Engineering Pub Date : 2021-10-31 DOI:10.5897/jpge2021.0349

Z. Z., Idroas M., K. M, Abu Bakar H., Samsuri A., Ismail I.

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Abstract

Formation of irregularities on the inner surface of pipes is a common phenomenon that leads to corrosion and affects the functionality in the processing industries. Ultrasonic is known as one of the non-destructive means to address the formation of irregularities inside pipes. In this study, an ultrasonic measurement system is developed to detect the presence of internal irregularities in a pipe. An ultrasonic sensor EFC16T/R-2 with a frequency of 40 kHz was mounted outside the test pipe with a circular ring sensor unit. Different conditions of the inner pipe surface had caused fluctuations of the ultrasonic signal. The results show a low output voltage in the range of 2.1333 to 3.1334 V when no irregularities were detected. A higher output voltage was observed in the range of 5.4677 to 8.8667 V when irregularities occurred. The reconstructed images of irregularities had matched the actual condition of the pipe. Some images showed a slight inaccuracy of the position of the irregularities caused by the instability of the ultrasonic signals. Overall, the developed ultrasonic tomography is suitable as a tool for monitoring irregularities in a pipe.

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利用层析成像仪器系统测绘管道不规则性

在加工工业中，管道内表面形成不规则现象是导致腐蚀和影响功能的常见现象。超声波被认为是解决管道内部不规则形成的非破坏性手段之一。在这项研究中，开发了一种超声波测量系统来检测管道内部不规则性的存在。将频率为40 kHz的超声波传感器EFC16T/R-2与环形传感器单元安装在测试管道外。管内表面的不同条件会引起超声信号的波动。结果表明，在没有检测到不规则的情况下，输出电压在2.1333 ~ 3.1334 V之间。当出现不规则现象时，在5.4677 ~ 8.8667 V范围内观察到较高的输出电压。重建的不规则图像与管道的实际情况相符。由于超声信号的不稳定性，一些图像显示不规则的位置有轻微的不准确。总的来说，所开发的超声层析成像适合作为监测管道不规则性的工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Petroleum and Gas Engineering

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