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A three-stage resilience analysis framework for urban infrastructure systems

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Structural Safety, (мая 2012)
DOI: 10.1016/j.strusafe.2011.12.004

Аннотация

This paper proposes a new multi-stage framework to analyze infrastructure resilience. For each stage, a series of resilience-based improvement strategies are highlighted and appropriate correlates of resilience identified, to then be combined for establishing an expected annual resilience metric adequate for both single hazards and concurrent multiple hazard types. Taking the power transmission grid in Harris County, Texas, USA, as a case study, this paper compares an original power grid model with several hypothetical resilience-improved models to quantify their effectiveness at different stages of their response evolution to random hazards and hurricane hazards. Results show that the expected annual resilience is mainly compromised by random hazards due to their higher frequency of occurrence relative to hurricane hazards. In addition, under limited resources, recovery sequences play a crucial role in resilience improvement, while under sufficient availability of resources, deploying redundancy, hardening critical components and ensuring rapid recovery are all effective responses regardless of their ordering. The expected annual resilience of the power grid with all three stage improvements increases 0.034\% compared to the original grid. Although the improvement is small in absolute magnitude due to the high reliability of real power grids, it can still save millions of dollars per year as assessed by energy experts. This framework can provide insights to design, maintain, and retrofit resilient infrastructure systems in practice. ► A new multi-stage framework to analyze urban infrastructure system resilience under multiple hazards is developed. ► The effects of different strategies for resilience improvement are compared using power grids. ► Under limited resources, recovery sequences play a crucial role in resilience improvement. ► Increases of 0.034\% in power grid expected annual resilience may save millions of dollars in operations and maintenance per year. ► The expected annual resilience is more effectively improved by managing random hazards than hurricane hazards.

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