Methodology for Estimating Electricity Generation Vulnerability to Climate Change Using a Physically-based Modelling System
Published:
Publication info
Recommended citation:
- Bartos, M., & Chester, M. (2014). Methodology for Estimating Electricity Generation Vulnerability to Climate Change Using a Physically-based Modelling System. Working Paper Series. Stock Number: ASU-CESEM-2014-WPS-002
Available at:
- https://repository.asu.edu/items/25404
Abstract
In recent years, concerns have grown over the risks posed by climate change on the U.S. electricity grid. The availability of water resources is integral to the production of electric power, and droughts are expected to become more frequent, severe, and longer-lasting over the course of the twenty-first century. The American Southwest, in particular, is expected to experience large deficits in streamflow. Studies on the Colorado River anticipate streamflow declines of 20-45% by 2050. Other climactic shifts—such as higher water and air temperatures—may also adversely affect power generation. As extreme weather becomes more common, better methods are needed to assess the impact of climate change on power generation. This study uses a physically-based modeling system to assess the vulnerability of power infrastructure in the Southwestern United States at a policy-relevant scale.