A Case Study on Potential SCC Management Using 10-Inch EMAT ILI

Volume 1: Pipeline and Facilities Integrity Pub Date : 2018-09-24 DOI:10.1115/IPC2018-78762

S. Henderson, Jeff Ector, M. Kirkwood

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Abstract

Environmentally assisted cracking (EAC), more specifically, stress corrosion cracking (SCC) has been a pipeline integrity concern since the 1960s. However, there were not many options for pipeline operators to effectively manage this threat on gas and liquid pipelines. SCC and other crack type defects have become a threat which is more widely understood and can be appropriately managed through in-line inspection (ILI). The two primary technologies for crack detection, developed in the 1990s and early 2000s respectively, are ultrasonic (UT) and electromagnetic acoustic transducer (EMAT). Although EMAT was originally developed to find SCC on gas pipelines, it has proven equally valuable for crack inspections on liquid pipelines. A case study with a gas and natural gas liquid (NGL) operator, ONEOK Inc. (ONEOK) demonstrates the effectiveness of using EMAT ILI to evaluate the potential threat of crack and crack-like defects on a 48 mile (77.2 km), liquid butane pipeline. By utilizing both 10-inch (254 mm) multiple datasets (MDS) technology and 10-inch (254 mm) EMAT ILI tools, ONEOK proved the effectiveness of ILI to identify critical and sub-critical crack and crack-like defects on their pipeline. This paper will present on the findings from the two technologies and illustrate the approaches taken by the operator to mitigate crack type defects on this pipeline.

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基于10英寸EMAT ILI的潜在SCC管理案例研究

自20世纪60年代以来，环境辅助开裂(EAC)，更具体地说，应力腐蚀开裂(SCC)一直是管道完整性关注的问题。然而，对于管道运营商来说，没有太多的选择来有效地管理天然气和液体管道的这种威胁。SCC和其他裂纹型缺陷已经成为一种被广泛理解的威胁，并且可以通过在线检测(ILI)进行适当的管理。在20世纪90年代和21世纪初分别发展起来的两种主要的裂纹检测技术是超声波(UT)和电磁声换能器(EMAT)。虽然EMAT最初是为了发现天然气管道上的SCC而开发的，但事实证明，它同样适用于液体管道的裂缝检测。一项针对天然气和天然气液体(NGL)运营商ONEOK公司(ONEOK)的案例研究表明，使用EMAT ILI评估48英里(77.2公里)液态丁烷管道裂缝和类裂缝的潜在威胁是有效的。通过使用10英寸(254毫米)多数据集(MDS)技术和10英寸(254毫米)EMAT ILI工具，ONEOK证明了ILI在识别管道上的临界和亚临界裂缝和裂纹样缺陷方面的有效性。本文将介绍这两种技术的发现，并说明运营商采取的方法来减轻这条管道上的裂纹型缺陷。

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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Volume 1: Pipeline and Facilities Integrity

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