Abstract Subsurface Barrier Valves (SBVs) play a critical role in the safe suspension of subsea wells, particularly in deepwater environments where project complexity and extended timelines are common. This paper presents a comprehensive review of the engineering considerations, qualification requirements, and field-proven performance of modern SBVs in long-duration suspension applications. It highlights the integrated modular design of the valve—including the remote trigger, mechanical actuation, and ball valve sealing modules—and their collective role in ensuring barrier integrity in debris-laden, high-pressure/high-temperature (HPHT) environments. Drawing from recent full-scale debris qualification tests and field case studies, including wells suspended for over four years, this paper emphasizes the importance of zero-bubble-tight sealing, debris-tolerant actuation, and reliable trip-saver mechanisms. These findings underscore the SBV's indispensable role in modern deepwater batch drilling, intelligent completion strategies, and future digitalized well architectures.
Zhao et al. (Tue,) studied this question.