Shedding Light on the Failure Factors of Subsea Critical Fastener Bolts

ECS advances Pub Date : 2024-04-04 DOI:10.1149/2754-2734/ad3a7c

O. Medlinsky, Constantinos Hadjistassou, Amir Eliezer

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Abstract

Offshore facilities, such as oil and gas rigs, wind turbines, and related subsea equipment, typically use flanges fastened using bolts and nuts as the main connectors. In this study, multidisciplinary parameters, namely the preload torque used to tighten bolts, simulated subsea water currents, water temperature, and impressed current cathodic protection, were applied to ASTM A193 B7 bolts. An experimental supervisory control and data acquisition system was designed to obtain measurements every 5 min throughout a 21-day experiment. Finite element analysis was performed to predict the structurally vulnerable areas of the bolts. A strong correlation was found between the reference electrode readings and the measured electrical current, tightening torque, and water temperature. As the water temperature rises during the day, the reference electrode reading becomes less negative and the electrical current decreases. Subsea water currents cause about a four-time increase in the bolt corrosion rate, with unprotected bolts suffering a nine-time-higher corrosion rate than protected bolts. A unique supply–demand interaction is observed; less protection is supplied to areas with lower corrosion rates (lower demand for protection). Finally, scanning electron microscopy examination reveals new insights into the failure mechanisms of subsea bolts.

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揭示海底关键紧固件螺栓的失效因素

石油和天然气钻井平台、风力涡轮机和相关海底设备等海上设施通常使用螺栓和螺母作为主要连接件紧固法兰。在本研究中，对 ASTM A193 B7 螺栓采用了多学科参数，即拧紧螺栓时使用的预紧扭矩、模拟海底水流、水温和冲击电流阴极保护。设计了一个实验监督控制和数据采集系统，以便在 21 天的实验中每 5 分钟获得一次测量结果。通过有限元分析预测螺栓的结构脆弱区域。结果发现，参比电极读数与测得的电流、拧紧扭矩和水温之间存在很强的相关性。随着白天水温的升高，参比电极读数的负值减小，电流也随之减小。海底水流导致螺栓腐蚀率增加约四倍，未受保护螺栓的腐蚀率比受保护螺栓高出九倍。观察到了一种独特的供需互动现象；向腐蚀率较低的区域提供的保护较少（对保护的需求较低）。最后，扫描电子显微镜检查揭示了海底螺栓失效机制的新见解。

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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ECS advances

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