We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Tsunami impact assessment: development of vulnerability matrix for critical infrastructure and application to Christchurch, New Zealand.
- Authors
Williams, James H.; Wilson, Thomas M.; Horspool, Nick; Lane, Emily M.; Hughes, Matthew W.; Davies, Tim; Le, Lina; Scheele, Finn
- Abstract
Tsunamis can have severe impacts on society. In addition to casualties and damage to buildings, they can also damage and disrupt critical infrastructure. To support effective risk management, it is important to understand the possible extent, severity and duration of these impacts. While impacts on buildings and casualty estimations are relatively well developed for tsunamis, critical infrastructure impact models are either not available or lack accurate vulnerability information. This paper addresses these issues by reviewing global tsunami impacts to critical infrastructure to develop a semi-quantitative tsunami damage matrix for critical infrastructure components and systems. One potential application of the damage matrix is demonstrated within an impact assessment process for Christchurch, New Zealand. The impact assessment determines asset damage likelihood for energy, water, telecommunication and transportation assets from a large tsunami inundation scenario. Consistent with observations from previous international tsunamis, above-ground assets and buried storm water pipe networks in Christchurch were found to perform poorly, while buried potable and waste water pipe networks were less impacted. This process provides a simple, but widely applicable, impact assessment approach which further studies can build on. Future research should focus on developing quantitative probabilistic tsunami vulnerability models for critical infrastructure that implement multiple asset standards and hazard intensity measures, and better account for uncertainty.
- Subjects
CHRISTCHURCH (N.Z.); NEW Zealand; TSUNAMI hazard zones; TSUNAMI damage; TSUNAMIS; DRINKING water; SEWAGE
- Publication
Natural Hazards, 2019, Vol 96, Issue 3, p1167
- ISSN
0921-030X
- Publication type
Article
- DOI
10.1007/s11069-019-03603-6