Optimization of Coastal Protections in the Presence of Climate Change

Yuki Miura, Philip C. Dinenis, Kyle T. Mandli, George Deodatis, Daniel Bienstock

Research output: Contribution to journalArticlepeer-review

Abstract

It is generally acknowledged that interdependent critical infrastructure in coastal urban areas is constantly threatened by storm-induced flooding. Due to changing climate effects, such as sea level rise (SLR), the occurrence of catastrophic events will be more frequent and may trigger an increased likelihood of severe hazards. Planning a protective measure or mitigation strategy is a complex problem given the constraints that it must fit within a prescribed and limited fiscal budget and be beneficial to the community it protects both socially and economically. This article proposes a methodology for optimizing protective measures and mitigation strategies for interdependent infrastructures subjected to storm-induced flooding and climate change impacts such as SLR. Optimality is defined in this methodology as a maximum reduction in overall expected losses within a prescribed budget (compared to the expected losses in the case of doing nothing for protection/mitigation). Protective measures can include seawalls, barriers, artificial dunes, restoration of wetlands, raising individual buildings, sealing parts of the infrastructure, strategic retreat, insurance, and many more. The optimal protective strategy can be a combination of several protective measures implemented over space and time. The optimization process starts with parameterizing the protective measures. Storm-induced flooding and SLR, and their corresponding consequences, are estimated using a GIS-based subdivision-redistribution methodology (GISSR) developed by the authors for finding a rough solution in the first brute-force iterations of the optimization loop. A storm surge computational model called GeoClaw is subsequently used to simulate ensembles of synthetic storms in order to fine-tune and achieve the optimal solution. Damage loss, including economic impacts, is quantified based on calculated flood estimates. The suitability of the potential optimal solution is examined and assessed with input from stakeholders' interviews. It should be mentioned that the results and conclusions provided in this work depend on the assumptions made about future sea level rise (SLR). The authors acknowledge that there are other, more severe predictions for sea level rise (SLR), than the one used in this paper.

Original languageEnglish (US)
Article number613293
JournalFrontiers in Climate
Volume3
DOIs
StatePublished - Aug 5 2021

Keywords

  • climate risk
  • coastal protection
  • damage assessment
  • GeoClaw
  • mitigation
  • optimization
  • sea level rise
  • storm surge flooding

ASJC Scopus subject areas

  • Global and Planetary Change
  • Environmental Science (miscellaneous)
  • Pollution
  • Atmospheric Science
  • Management, Monitoring, Policy and Law

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