Revolutionizing Drilling Operations: Unveiling the Power of Advanced Ultrasound Technologies for Integrity Inspection of Drilling Risers

Abstract

Abstract Integrity inspection is crucial in ensuring drilling risers’ reliable operation in the offshore oil and gas industry. This article explores the application of advanced ultrasound technologies, specifically Phased Array and Time of Flight Diffraction (TOFD), for inspecting drilling risers. Traditional inspection methods, such as visual, magnetic particle testing and conventional ultrasound, have limitations in detecting and characterising internal defects. In contrast, Phased Array and TOFD offer enhanced accuracy, sensitivity, and coverage capabilities. The article delves into Phased Array and TOFD principles and mechanisms, highlighting their advantages over conventional ultrasound by using these advanced ultrasound techniques to inspect welds, corrosion, and other potential integrity issues in riser components. Additionally, it addresses the challenges associated with inspecting fully assembled risers and presents solutions to overcome them. Furthermore, the article presents case studies demonstrating the effectiveness of Phased Array and TOFD in identifying critical defects, such as fatigue cracks and wall thinning. It emphasises the importance of a comprehensive inspection strategy combining multiple techniques to assess drilling riser integrity comprehensively. Lastly, the article discusses the integration of advanced ultrasound technologies into existing inspection programs, including considerations for equipment selection, personnel training, and data analysis. Overall, this article highlights the significant advancements made in the integrity inspection of drilling risers through the use of advanced ultrasound technologies. It underscores the potential for improved safety, reduced inspection time, logistics and enhanced operational efficiency in the offshore drilling industry.