Health and air pollutant emission impacts of net zero CO2 by 2050 scenarios from the energy modeling forum 37 study

IF 5.8 Q2 ENERGY & FUELS
Daniel H. Loughlin , Alexander R. Barron , Charavee Basnet Chettri , Abigail O'Meara , Luis Sarmiento , Danni Dong , David L. McCollum , Sharon Showalter , Robert H. Beach , John Bistline , G. Joyce Kim , Christopher G. Nolte , Johannes Emmerling , P. Ozge Kaplan
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Abstract

Carbon dioxide and non-greenhouse gas air pollutants are emitted from many of the same sources. Decarbonization actions thus typically yield air pollutant emission reductions, resulting in significant air quality benefits. Although several studies have highlighted this connection, including in the context of net zero carbon emission targets, substantial uncertainty remains regarding how alternative technological pathways to this goal will affect the spatial distribution and magnitude of air pollutants. Comprehensive multi-model and multi-scenario analyzes are needed to explore the relative impacts of alternative pathways. Our study begins to address this gap by leveraging the results from the recent Energy Modeling Forum 37 inter-model comparison exercise on U.S. decarbonization pathways. Comparing the results of the six teams who submitted air pollutant emissions suggests that strategies that target net zero U.S. carbon emissions would yield significant reductions in many air pollutants, and that this finding is generally robust across pathways. However, some energy sources, such as biomass and fossil fuels with carbon capture, will emit air pollutants and can potentially influence the magnitude, spatial distribution, and even sign of localized air pollutant emission changes. In the second part of this analysis, a simplified air quality and health impacts screening model is used to evaluate the air quality impacts in 2035 of sectoral emission changes from the three models that provided sectoral detail. Relative to a reference scenario, a net zero pathway is estimated to reduce fine particulate matter concentrations across the contiguous U.S., with health benefits from reduced mortality ranging from $65 billion to $250 billion in 2035 alone (2023$s). These benefits would be expected to grow over time as the net zero trajectory becomes more stringent. Both the magnitude of potential benefits and the substantial variation of the projections across models underscore the need for an EMF-like inter-model comparison exercise focused on air quality.
能源建模论坛 37 研究提出的 2050 年二氧化碳净零排放方案对健康和空气污染物排放的影响
二氧化碳和非温室气体空气污染物的排放源很多是相同的。因此,去碳化行动通常会减少空气污染物的排放,从而带来显著的空气质量效益。尽管多项研究强调了这种联系,包括在净零碳排放目标的背景下,但实现这一目标的替代技术途径将如何影响空气污染物的空间分布和规模,仍然存在很大的不确定性。需要进行全面的多模型和多情景分析,以探索替代途径的相对影响。我们的研究利用最近能源建模论坛 37 就美国去碳化路径进行的模型间比较活动的结果,开始填补这一空白。对提交了空气污染物排放的六个团队的结果进行比较后发现,以美国碳净零排放为目标的战略将显著减少许多空气污染物排放,而且这一结果在不同路径中总体上是稳健的。然而,一些能源,如生物质能和碳捕集化石燃料,会排放空气污染物,并有可能影响局部空气污染物排放变化的幅度、空间分布甚至迹象。在本分析的第二部分,使用了一个简化的空气质量和健康影响筛选模型来评估 2035 年部门排放变化对空气质量的影响,该影响来自三个提供了部门细节的模型。与参考情景相比,估计净零路径可降低美国毗连地区的细颗粒物浓度,仅在 2035 年(2023 年),死亡率降低带来的健康效益就在 650 亿美元到 2500 亿美元之间。随着净零排放轨迹变得更加严格,预计这些效益将随时间推移而增长。潜在效益的规模和不同模型之间预测的巨大差异都突出表明,有必要开展类似于 EMF 的、以空气质量为重点的模型间比较活动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Energy and climate change
Energy and climate change Global and Planetary Change, Renewable Energy, Sustainability and the Environment, Management, Monitoring, Policy and Law
CiteScore
7.90
自引率
0.00%
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