Expert-Derived Flood Damage Curves for Critical Infrastructure Network Components

Williams James H., Vu Huong Ngan, Paulik Ryan, Zorn Conrad, Wotherspoon Liam

Publisher

Flood impact assessment is limited by a scarcity of damage curves for critical infrastructure network components. This study presents a judgement-based methodology for developing critical infrastructure network component flood damage curves. The 12 semi-structured workshops record responses for estimated minimum and maximum damage ratios at 0.5, 1, 2 and 3 m water depths. The 46 responses, weighted by participant expertise level, are aggregated into a discrete minimum and maximum damage curve for each component. Damage curves are presented for 34 infrastructure network components across the transportation, energy, water, and telecommunication sectors. These damage curves are benchmarked against relevant flood damage curves from previous studies, providing insight on how flood damage models compare internationally and across methods. While the synthesised flood damage curves allow for nationally consistent risk assessments, this study highlights the need for flood damage curves that represent local risk contexts for infrastructure network components to facilitate locally applicable risk assessments that inform risk management.

Publisher: Journal of Flood Risk Management

Article number: e70045

ISSN (Electronic): 1753318X

Keywords

  • critical infrastructure
  • damage curves
  • expert-judgement
  • flood
  • vulnerability

ASJC Scopus subject areas

  • Environmental Engineering
  • Geography, Planning and Development
  • Safety, Risk, Reliability and Quality
  • Water Science and Technology

Publication year

2025

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