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Dimension reduction approach for understanding resource-flow resilience to climate change

Environmental Studies and Forestry

Dimension reduction approach for understanding resource-flow resilience to climate change

A. Salgado, Y. He, et al.

Discover groundbreaking insights into the resilience of the San Francisco fuel transportation network against climate change-induced flooding. This innovative research by Ariel Salgado, Yiyi He, John Radke, Auroop Ratan Ganguly, and Marta C. Gonzalez dives deep into resource-flow dynamics under rising sea levels and system responses during disruptions.

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Playback language: English
Abstract
This paper extends the dimension-reduction approach to analyze resource-flow resilience in multiplex networks, focusing on the San Francisco fuel transportation network's response to climate change-induced coastal flooding. The study models fuel flow between refineries, terminals, and gas stations, identifying macroscopic conditions for supplying fuel demand under various sea-level rise scenarios. It also examines the system's transient response to production failures, assessing the time to demand failure and average demand level during disruptions.
Publisher
Communications Physics
Published On
Jun 15, 2024
Authors
Ariel Salgado, Yiyi He, John Radke, Auroop Ratan Ganguly, Marta C. Gonzalez
Tags
resource-flow resilience
multiplex networks
climate change
coastal flooding
fuel transportation
sea-level rise

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