Study on Pipeline Spanning Detection Using Magnetic Anisotropy

2021 48th Annual Review of Progress in Quantitative Nondestructive Evaluation Pub Date : 2021-07-28 DOI:10.1115/qnde2021-74974

Huang Xinjing, Chen Qian, Zhao Jianyuan, Yan Yutian, Li Jian, Zhang Yu, Feng Hao

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Abstract

Subsea pipelines often lose foundation soil support due to ocean current erosion and form spanning. Spanning greatly increases the risk of pipeline fracture. When a subsea pipeline has spanning, it is often accompanied by characteristic changes in its pipe wall stress, pipeline deflection, and pitch angle. In turn, we can analyze the three parameters to get the spanning state of the pipeline. Wherein, around using stress to detect pipeline spanning state, this paper carries out two parts of research work. (1) We conducted a stress analysis on the free-span pipeline. The results show that the stress distribution has a strong distinct relationship with the pipeline spanning state. (2) We proposed and developed a steel plate stress detection scheme based on the induced voltage method. The results show that the steel plate stress has a good linear relationship with the induced voltage of the receiving coil on its surface, and the sensitivity can reach 1mv/MPa. Therefore, the AC magnetic anisotropy measurement of stress can reliably identify the stress distribution of the spanning pipeline.

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基于磁各向异性的管道跨越检测研究

由于海流侵蚀和形态跨越，海底管道经常失去地基土壤的支撑。跨越大大增加了管道断裂的风险。当海底管道跨越时，通常伴随着管壁应力、管道挠度和俯仰角的特征变化。反过来，我们可以分析这三个参数来得到管道的跨越状态。其中，围绕利用应力检测管道跨越状态，本文开展了两部分研究工作。我们对自由跨管道进行了应力分析。结果表明，应力分布与管道跨越状态有明显的关系。(2)提出并开发了一种基于感应电压法的钢板应力检测方案。结果表明，钢板应力与其表面接收线圈的感应电压呈良好的线性关系，灵敏度可达1mv/MPa。因此，交流磁各向异性应力测量可以可靠地识别跨管道的应力分布。

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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2021 48th Annual Review of Progress in Quantitative Nondestructive Evaluation

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