Lam-Thanh Luc, Hamdi Saad, Matta Tanios, Dr. Al Bannay Aamer, Meer Mumtaz Ali Imtiaz Sirsimth, Remy Antoine, Thebault Florian, Ladeuille Laurent
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引用次数: 0
摘要
在采用热机械控制工艺(TMCP)的板材制成的大直径管道发生故障之后,碳钢材料在H2S分压大于1bar的酸性环境中的适用性受到了质疑。了解到无缝淬火和回调材料不容易出现与大直径TMCP管相同的现象,因此决定通过使用实际生产环境pH=3.5, 24°C, 6.84 bar H2S + 6.84 bar CO2来确保DIYAB管道的完整性。全球方法包括基材在6.84bar H2S条件下的耐酸性使用资格,以及未进行焊后热处理的焊缝。还进行了6.84bar H2S下的断裂韧性测试,并将结果输入工程临界性评估(ECA),以确定无损检测(NDT)验收标准。选择无损检测工具是因为它们能够检测出关键缺陷并进行验证。提出了全球方法的方法和结果。
Carbon Steel X65QS Pipeline Qualification for Extreme Sour Service a Global Approach: Line Pipe, Welding, Eca Methodology and Diyab Pipeline Case Study
In the wake of failures of large diameter pipelines made from plates using the Thermo-Mechanically Controlled Process (TMCP), the suitability of carbon steel material for sour environments where the H2S partial pressure is largely over 1 bar has been questioned. Understanding that seamless quench and tempered material are not prone to the same phenomenon as large diameter TMCP pipes, it has been decided to ensure the integrity of the DIYAB pipeline by qualification using the actual production environment pH=3.5 at 24°C and 6.84 bar H2S plus 6.84 bar CO2.
The global approach includes the qualification to sour service resistance under 6.84bar H2S of the base material and the welds without post weld heat treatment. Fracture toughness tests under 6.84bar H2S were also conducted, and the results fed into an Engineering Criticality Assessment (ECA) to define the Non-Destructive Testing (NDT) acceptance criteria. The NDT tools were selected for their ability to detect the critical flaws and validated. The global approach methodology and results are presented.
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