The Effects of Climate Change on Interregional Electricity Market Dynamics on the U.S. West Coast

The Effects of Climate Change on Interregional Electricity Market Dynamics on the U.S. West Coast

The United States (U.S.) West Coast power system is strongly influenced by variability and extremes in air temperatures (which drive electricity demand) and streamflows (which control hydropower availability). As hydroclimate changes across the West Coast, a combination of forces may work in tandem...

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Bibliographic Details
Published in:Earth's future 2021-12, Vol.9 (12), p.n/a
Main Authors: Hill, Joy, Kern, Jordan, Rupp, David E., Voisin, Nathalie, Characklis, Gregory
Format: Article
Language:eng
Subjects:
Air temperature
Climate change
Climate effects
Confidence intervals
Cooling
Electric power demand
electric power systems
Electricity
Electricity distribution
Emissions
ENERGY PLANNING, POLICY, AND ECONOMY
ENVIRONMENTAL SCIENCES
Extreme heat
Extreme high temperatures
Extreme values
Extreme weather
Hydroclimate
Hydroelectric power
Industrial plant emissions
Market prices
markets
Power plants
POWER TRANSMISSION AND DISTRIBUTION
Precipitation
Reliability
Stream discharge
Stream flow
Summer
Time series
uncertainty
Water runoff
Water shortages
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Summary:The United States (U.S.) West Coast power system is strongly influenced by variability and extremes in air temperatures (which drive electricity demand) and streamflows (which control hydropower availability). As hydroclimate changes across the West Coast, a combination of forces may work in tandem to make its bulk power system more vulnerable to physical reliability issues and market price shocks. In particular, a warmer climate is expected to increase summer cooling (electricity) demands and shift the average timing of peak streamflow (hydropower production) away from summer to the spring and winter, depriving power systems of hydropower when it is needed the most. Here, we investigate how climate change could alter interregional electricity market dynamics on the West Coast, including the potential for hydroclimatic changes in one region (e.g., Pacific Northwest (PNW)) to “spill over” and cause price and reliability risks in another (e.g., California). We find that the most salient hydroclimatic risks for the PNW power system are changes in streamflow, while risks for the California system are driven primarily by changes in summer air temperatures, especially extreme heat events that increase peak system demand. Altered timing and amounts of hydropower production in the PNW do alter summer power deliveries into California but show relatively modest potential to impact prices and reliability there. Instead, our results suggest future extreme heat in California could exert a stronger influence on prices and reliability in the PNW, especially if California continues to rely on its northern neighbor for imported power to meet higher summer demands. Plain Language Summary Electric power systems are already strongly influenced by extreme weather, and climate change could make this problem worse. In this study, we explore how long‐term shifts in water availability and higher air temperatures could impact supply and demand for electricity in the West Coast region of the United States, and how interactions between two interconnected parts of the West Coast grid (the Pacific Northwest and California) could change as well. We focus on measuring impacts to the grid in terms of reliability (frequency of electricity shortfalls, or blackouts) and wholesale electricity prices. We find that shifts in water availability are likely to be the strongest influence on the Pacific Northwest, while increases in air temperatures are likely to be the strongest influence in Califo
ISSN:2328-4277
2328-4277