热浪加剧了来自能源系统的空气污染：来自美国平衡当局的经验证据

IF 13.6 2区经济学 Q1 ECONOMICS

Energy Economics Pub Date : 2025-06-21 DOI:10.1016/j.eneco.2025.108677

Jing Liang, Di Wu

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引用次数: 0

摘要

气候变化导致热浪日益频繁和强烈。能源部门尤其容易受到热浪的影响，因为热浪增加了能源需求，降低了发电厂的效率，加剧了能源系统的空气污染。这使得缓解空气污染变得复杂，特别是在主要以化石燃料为基础的电力系统中。本研究通过在平衡当局层面提供高频发电和排放数据的实证分析来解决这一差距。固定效应面板回归分析应用于控制混杂因素和确定更因果的影响。我们发现，热浪使日发电量增加了6.73%至7.54%，其中天然气发电量的增幅最高，为7.7%。此外，热浪使二氧化硫排放量增加10.5%至12.6%，氮氧化物排放量增加11.4%至13.3%，二氧化碳排放量增加11.9%至13.8%。我们还发现了不同地区、公用事业类型、燃料类型和社会人口群体之间的异质性。我们的研究强调了协调控制政策解决极端温度加剧的空气质量问题的紧迫性。

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Heatwaves worsen the air pollution from energy systems: Empirical evidence from balancing authorities in the United States

Climate change has led to increasingly frequent and intense heatwaves. The energy sector is particularly vulnerable to heatwaves, as they increase energy demand and reduce the efficiency of power plants, exacerbating air pollution from energy systems. This complicates the mitigation of air pollution, especially in predominantly fossil-fuel-based power systems. This study addresses this gap by providing empirical analysis using high-frequency generation and emissions data at the balancing authority level. A fixed-effects panel regression analysis is applied to control for confounding factors and determine a more causal impact. We find that heatwaves increase daily electricity generation by 6.73% to 7.54%, with the highest increase from natural gas generation at 7.7%. Additionally, heatwaves increase SO2 emissions by 10.5% to 12.6%, NOx emissions by 11.4% to 13.3%, and CO2 emissions by 11.9% to 13.8%. We also detect heterogeneity among different regions, types of utilities, fuel types, and socio-demographic groups. Our study underscores the urgency of coordinated control policies to address air quality issues exacerbated by extreme temperatures.

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来源期刊

Energy Economics ECONOMICS-

CiteScore

18.60

自引率

12.50%

发文量

524

期刊介绍： Energy Economics is a field journal that focuses on energy economics and energy finance. It covers various themes including the exploitation, conversion, and use of energy, markets for energy commodities and derivatives, regulation and taxation, forecasting, environment and climate, international trade, development, and monetary policy. The journal welcomes contributions that utilize diverse methods such as experiments, surveys, econometrics, decomposition, simulation models, equilibrium models, optimization models, and analytical models. It publishes a combination of papers employing different methods to explore a wide range of topics. The journal's replication policy encourages the submission of replication studies, wherein researchers reproduce and extend the key results of original studies while explaining any differences. Energy Economics is indexed and abstracted in several databases including Environmental Abstracts, Fuel and Energy Abstracts, Social Sciences Citation Index, GEOBASE, Social & Behavioral Sciences, Journal of Economic Literature, INSPEC, and more.