Abstract
Lifeline disruptions can represent a serious economic threat at various scales. However, firm-level empirical evidence regarding the consequences and reliability of lifeline services, and how lifeline service disruptions impact on economic losses after disasters, is still lacking. This study applies a temporal, non-homogeneous, Markov process approach that explicitly considers multiple lifeline service disruptions. This approach is used to quantitatively estimate the impacts of multiple lifeline disruptions on business production capacity losses. The model is illustrated based on the 2011 Great East Japan Earthquake case study with detailed information obtained from individual business recovery data. The result indicates that the restoration of lifeline systems during disruptions should consider each business service given that it significantly affects business production capacity recovery. For example, the case study results indicate that if electrical power, water and gas are disrupted, restoration of electrical power supply yields the highest influence on production capacity improvement, amounting to 15% per day on average, compared with 10% per day for gas restorations, and 8% per day for water restoration. The proposed model can provide information to business managers and policymakers on the optimum recovery strategy and on how to mitigate economic losses in disruption event cases.
Original language | English |
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Article number | 107299 |
Number of pages | 12 |
Journal | Reliability Engineering and System Safety |
Volume | 206 |
Early online date | 4 Nov 2020 |
DOIs | |
Publication status | Published - Feb 2021 |
Austrian Fields of Science 2012
- 101030 Reliability theory
Keywords
- 2011 Great East Japan earthquake
- CAPACITY
- CRITICAL-INFRASTRUCTURE
- EARTHQUAKE
- ECONOMIC-IMPACT
- Economic impacts analysis
- FRAMEWORK
- INTERDEPENDENCIES
- Lifeline disruption
- MODEL
- Markov process
- NATURAL DISASTERS
- RESILIENCE
- Recovery
- SYSTEMS