Monitoring and Preventing Failures of Transmission Pipelines at Oil and Natural Gas Plants

Bęben, Dariusz; Steliga, Teresa

doi:10.3390/en16186640

Energies

2023

DOI: 10.3390/en16186640

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Monitoring and Preventing Failures of Transmission Pipelines at Oil and Natural Gas Plants

Dariusz Bęben,

Teresa Steliga

Abstract: In recent years, the increase in energy prices and demand has been driven by the post-pandemic economic recovery. Of the various energy sources, oil and natural gas remain the most important source of energy production and consumption after coal. Oil and gas pipelines are a key component of the overall energy infrastructure, transporting oil and gas from mines to end users, so the reliability and safety of these pipelines is critical. The oil and gas industry incurs large expenses for the removal of failures r… Show more

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2024

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Cited by 4 publications

References 66 publications

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Research on Ultrasonic Guided Wave Pipeline Defect Detection Method Based on Modal Analysis

Liu,

Cai,

Kang

et al. 2024

J. Phys.: Conf. Ser.

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Pipelines are important transmission media in the petroleum industry, and their safe and stable operation is of great significance to industrial safety. The secure and reliable operation of oil and gas pipelines holds paramount importance for industrial safety. The significance of non-destructive testing (NDT) technology in this context is steadily growing. Presently, guided wave-based pipeline defect detection technology has garnered considerable attention. This method is noteworthy for its extensive coverage, ability to inspect the entire cross-section, and its capability to conduct inspections without disrupting ongoing production processes. Research focused on the displacement distribution of various modes of guided waves, exploring different excitation methods for each mode. The investigation also delved into the interaction mechanism between guided waves and pipeline defects; Conducted research on the detection of axial, circumferential and radial dimensions of defects using different modes of guided waves, and carried out experimental verification, studying the transformation law of the reflection coefficient of the defect reflection echo when the flaw size changes provide a reference for pipeline defect detection based on guided waves.

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Research on Ultrasonic Guided Wave Pipeline Defect Detection Method Based on Modal Analysis

Liu,

Cai,

Kang

et al. 2024

J. Phys.: Conf. Ser.

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Pipeline defect detection system based on phased array excitation technology

Gong,

Liu,

Liu

et al. 2024

J. Phys.: Conf. Ser.

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To address the challenges of non-destructive testing of professional industrial pipeline conditions, this paper designs a pipeline defect detection system based on phased array excitation technology. Online/offline detection equipment can be selected according to different application scenarios, achieving various functions such as phase delay calculation, ultrasonic data collection, and graphical display of calculation results. This article mainly elaborates on the principle of phased array excitation technology, the circuit design of detection equipment, and the overall design of upper computer software, proposing a practical solution for non-destructive testing of industrial pipelines.

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A Novel Prediction Method for the Remaining Life of Corrosion Damage in Oil and Gas Pipeline Systems

Cui,

Wang,

Dong

2024

IEEE Access

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Monitoring and Preventing Failures of Transmission Pipelines at Oil and Natural Gas Plants

Cited by 4 publications

References 66 publications

Research on Ultrasonic Guided Wave Pipeline Defect Detection Method Based on Modal Analysis

Research on Ultrasonic Guided Wave Pipeline Defect Detection Method Based on Modal Analysis

Pipeline defect detection system based on phased array excitation technology

A Novel Prediction Method for the Remaining Life of Corrosion Damage in Oil and Gas Pipeline Systems

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