Three-Dimensional Ultrasonic Reverse-Time Migration Imaging of Submarine Pipeline Nondestructive Testing in Cylindrical Coordinates
Submarine pipelines are a safe and energy-efficient mode of gas transport. However, due to the complex manufacturing process and harsh operating environment, submarine pipelines are subject to fatigue cracks under long-term cyclic loading. A comprehensive and high-precision characterization strategy...
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| Published in | Journal of marine science and engineering Vol. 11; no. 7; p. 1459 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
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MDPI AG
01.07.2023
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| Abstract | Submarine pipelines are a safe and energy-efficient mode of gas transport. However, due to the complex manufacturing process and harsh operating environment, submarine pipelines are subject to fatigue cracks under long-term cyclic loading. A comprehensive and high-precision characterization strategy for submarine pipelines can effectively prevent potential safety hazards and have significant economic and social repercussions. As a matter of fact, pipeline defects cannot be reliably detected with current traditional 2D methods. On the other hand, in ultrasonic testing, cylindrical geometry increases the complexity of the 3D wave field in the submarine pipeline space and significantly influences the accuracy of the detection results. In this paper, we put forward a novel method for 3D ultrasonic image testing that is suitable for cylindrical coordinates. In order to accurately simulate the ultrasonic signal received from pipelines, we generalize the 3D staggered-grid finite-difference method from Cartesian coordinates to cylindrical ones and simulate the full wave field in the 3D pipeline space. Then, signal processing is performed on the ultrasound simulation records, and 3D reverse-time migration imaging of submarine pipeline defects can be effectively achieved using the reverse-time migration method and cross-correlation imaging conditions. The results obtained from simulations and real field data show that the proposed method provides high-quality 3D imaging of defects in pipelines, taking into account multiple scattering and mode conversion information at the bottom of the defects. |
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| AbstractList | Submarine pipelines are a safe and energy-efficient mode of gas transport. However, due to the complex manufacturing process and harsh operating environment, submarine pipelines are subject to fatigue cracks under long-term cyclic loading. A comprehensive and high-precision characterization strategy for submarine pipelines can effectively prevent potential safety hazards and have significant economic and social repercussions. As a matter of fact, pipeline defects cannot be reliably detected with current traditional 2D methods. On the other hand, in ultrasonic testing, cylindrical geometry increases the complexity of the 3D wave field in the submarine pipeline space and significantly influences the accuracy of the detection results. In this paper, we put forward a novel method for 3D ultrasonic image testing that is suitable for cylindrical coordinates. In order to accurately simulate the ultrasonic signal received from pipelines, we generalize the 3D staggered-grid finite-difference method from Cartesian coordinates to cylindrical ones and simulate the full wave field in the 3D pipeline space. Then, signal processing is performed on the ultrasound simulation records, and 3D reverse-time migration imaging of submarine pipeline defects can be effectively achieved using the reverse-time migration method and cross-correlation imaging conditions. The results obtained from simulations and real field data show that the proposed method provides high-quality 3D imaging of defects in pipelines, taking into account multiple scattering and mode conversion information at the bottom of the defects. |
| Audience | Academic |
| Author | She, Xiaoyu Zheng, Yunpeng Peng, Daicheng Cheng, Fei Tang, Yongjie Fan, Zhuo |
| Author_xml | – sequence: 1 givenname: Daicheng orcidid: 0009-0001-8660-0546 surname: Peng fullname: Peng, Daicheng – sequence: 2 givenname: Fei surname: Cheng fullname: Cheng, Fei – sequence: 3 givenname: Xiaoyu surname: She fullname: She, Xiaoyu – sequence: 4 givenname: Yunpeng surname: Zheng fullname: Zheng, Yunpeng – sequence: 5 givenname: Yongjie surname: Tang fullname: Tang, Yongjie – sequence: 6 givenname: Zhuo surname: Fan fullname: Fan, Zhuo |
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| SubjectTerms | 3D ultrasonic imaging Accuracy Acoustics Boundary conditions Cartesian coordinates Complexity Composite materials Coordinate systems Cross correlation Cyclic loading Cyclic loads Cylindrical coordinates Defects Energy efficiency Fatigue Fatigue cracks Fatigue failure Fatigue testing machines Finite difference method Gas pipelines Imaging Imaging techniques Manufacturing industry Materials Methods Nondestructive testing Pipelines Propagation reverse-time migration Signal processing Simulation Simulation methods Submarine pipelines Ultrasonic testing Underwater pipelines Underwater structures Velocity |
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| Title | Three-Dimensional Ultrasonic Reverse-Time Migration Imaging of Submarine Pipeline Nondestructive Testing in Cylindrical Coordinates |
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