Defect detection and localization in hydrogen pipelines using acoustic emission technique

Defect detection and localization in hydrogen pipelines using acoustic emission technique

Singapore International Non-Destructive Testing Conference Exhibition

10.58286/30855

https://doi.org/10.58286/30855

Zi Wen Tham, Santhakumar Sampath, Lei Zhang

Acoustic emission, Non-destructive testing, Non-destructive evaluation, structural health monitoring

01 March 2025

Tham, Z. W., Sampath, S., Zhang, L. (2025). Defect detection and localization in hydrogen pipelines using acoustic emission technique. E-Journal of Nondestructive Testing, 30(3). https://doi.org/10.58286/30855

The structural integrity of hydrogen pipelines is critical for ensuring the safe and efficient transportation of hydrogen as a clean energy carrier. Over time, potential defects such as hydrogen embrittlement (HE) -induced cracks, weld defects, and leakages may occur along pipelines stretched across long distances. To monitor the health of such infrastructures in real-time, acoustic emission (AE) monitoring has emerged as a promising non-destructive evaluation (NDE) and passive method. This study investigates the application of AE testing to detect and localize controlled defects along metal pipelines. Experiments were conducted on a steel pipe specimen mounted with AE sensors laid out in a triangulation array, and controlled AE sources. The AE signals generated by the sources were analysed to identify characteristic parameters, such as amplitude, frequency, rise time, counts, and signal duration for early defect detection. With the sensors laid out in an array configuration, the AE sources can also be accurately localised along the pipe walls. Results demonstrate that AE can effectively in-situ monitor and localise defects in pipeline, providing valuable insights into the infrastructure integrity. A triangulation algorithm based on the time difference of arrival (TDOA) was also employed for defect localisation. With the accurate defect localisation using an AE sensor array, non-destructive testing (NDT) methods can be supplemented for a more thorough inspection and characterisation of the localised defect. This work highlights AE testing as a viable, real-time monitoring tool for enhancing the safety and reliability of hydrogen pipeline infrastructure.

Attribution 4.0 International (CC BY 4.0)

This research / project is supported by the National Research Foundation - Low-Carbon Energy Research Phase 2 Programme HETFI Directed Hydrogen Programme
Grant Reference no. : U2307D4002

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https://oar.a-star.edu.sg/communities-collections/articles/21689

1435-4934

Institute of Materials Research & Engineering

https://www.ndt.net/article/since2025/papers/SINCE2025_Paper_40.pdf