Shedding Light on the Failure Factors of Subsea Critical Fastener Bolts

Ofer Medlinsky, Amir Eliezer, Constantinos Hadjistassou

    Research output: Contribution to journalArticlepeer-review

    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.

    Original languageEnglish
    Article number021501
    JournalECS Advances
    Volume3
    Issue number2
    DOIs
    Publication statusPublished - 3 Jun 2024

    Keywords

    • hydrogen embrittlement
    • impressed current cathodic protection
    • SCADA
    • subsea bolts
    • water temperature

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