Journal
RELIABILITY ENGINEERING & SYSTEM SAFETY
Volume 231, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.ress.2022.108939
Keywords
Markov models; Resilience; Mooring failure; Extreme ocean environment; Recovery; Single extreme event fatigue
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This paper presents a Markov resilience assessment framework for Tension Leg Platforms (TLP) under mooring failure, considering internal and external factors. An illustrative example demonstrates the feasibility of the proposed methodology, highlighting the versatility of the Markov framework in handling resilience problems for offshore structure systems.
During the service life of Tension Leg Platform (TLP), it may be exposed to various risk, with mooring failure being one of the most catastrophic events. Resilience, as an integrated assessment philosophy, can evaluate the overall post-event response performance and further improve system's operation safety. In this paper, a Markov resilience assessment framework for TLP under mooring failure is firstly proposed. The failure process and recovery process are mathematically described by Markov process and continuous-time Markov process, respectively. The internal and external effect has been taken into account, including extreme environment, structural degradation, recovery process schedule and structural strength etc. The resilience assessment framework is developed by 2 aspects, including robustness and recovery resilience. Besides, an illustrative example is developed as a walk-through of proposed methodology. The applications here demonstrate the versatility of the Markov framework towards handling resilience problems with varying levels of complexity, especially the offshore structure systems.
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