Environmental Justice and Climate, Air Pollution, and Economics of Decisions in the U.S. Power Sector

Research Seminars: Decarbonization Seminar

Joint Seminar ZEW and MISES

Electricity generation is a large contributor to PM2.5 air pollution. However, the demographic distribution of its resulting exposure is largely unknown. The paper presented in this Research Seminar estimates the health effects from air pollution from electricity generation in the US, for each of the seven Regional Transmission Organizations, for each US state, by income and by race. Exposures are higher for lower-income than for higher-income, but disparities are larger by race than by income. Geographically, the authors observe large differences between where electricity is generated and where people experience the resulting air pollution health consequences: for 36 US states, most of the health impacts are attributable to emissions in other states. Then, they discuss the issue of improved air quality and human health, which are often discussed as “co-benefits” of mitigating climate change, yet they are rarely considered when designing or implementing climate policies. The authors have developed and implemented a model that optimizes emissions reductions costs from the U.S. power sector for climate and health benefits under retirements and new plant construction decisions. The paper determines the best locations for replacing power plants with new wind, solar, or natural gas to meet a CO2 reduction target in the United States. It employs a capacity expansion model with integrated assessment of climate and health damages, comparing portfolios optimized for benefits to climate alone or both health and climate. The model estimates county-level health damages and accounts for uncertainty by using a range of air quality models (AP3, EASIUR, and InMAP) and concentration−response functions (American Cancer Society and Harvard Six Cities). It finds that reducing CO2 by 30% yields $21−68 billion in annual health benefits, with an additional $9−36 billion possible when co-optimizing for climate and health benefits. Total health benefits equal or exceed climate benefits across a wide range of modeling assumptions. The results demonstrate the value of considering health in climate policy design and the need for interstate cooperation to achieve additional health benefits equitably.

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Junior Research Associate
Nikolas Wölfing
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