在内部加压的影响下,对受到腐蚀破坏的地面管道的变形动力学进行分析研究

Ladislau Radermacher, Cristian Rădeanu, Ludovic Călcîi
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引用次数: 0

摘要

摘要 腐蚀是造成天然气管道故障和泄漏的一个主要因素。在外部腐蚀的情况下,管道内部压力会在受腐蚀影响的区域产生应力和应变集中。这些现象,再加上腐蚀过程中产生的空洞或裂缝,会增加管道故障的风险。由于腐蚀会减小管道的壁厚,其承受内部压力的能力也会大大降低。因此,与未受腐蚀的管道相比,受腐蚀影响的管道可能会在更低的压力下发生坍塌。为了分析和预测腐蚀管道的行为,我们使用 Abaqus 软件进行有限元建模。该工具可以模拟内部压力对天然气管道结构的机械影响,从而能够预测管道在各种压力条件下的行为。这种方法有助于识别和评估与腐蚀相关的风险,便于实施适当的预防和维护措施,确保天然气管道的完整性和功能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analytical Examination of Deformational Dynamics in Above-Ground Pipelines Compromised by Corrosion Under the Influence of Internal Pressurization
Abstract Corrosion is a major factor responsible for failures and leaks in gas pipelines. In the context of external corrosion, the internal pressure within pipes can create stress and strain concentrations in the area affected by corrosion. These phenomena, combined with the presence of cavities or cracks resulting from the corrosion process, amplify the risk of pipeline failure. As corrosion reduces the wall thickness of the pipe, its ability to withstand internal pressures decreases significantly. Consequently, a pipe affected by corrosion may collapse at a much lower pressure compared to a pipe that has not been subjected to corrosion. With a view to analyse and anticipate the behaviour of corroded pipes, finite element modelling is used, implemented through the Abaqus software. This tool allows for simulating the mechanical effects of internal pressure on the gas pipeline structure, thereby providing the ability to predict the pipeline's behaviour under various pressure conditions. This approach aids in identifying and assessing risks associated with corrosion, facilitating the implementation of suitable preventive and maintenance measures to ensure the integrity and functionality of gas pipelines.
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