Spatiotemporally Detailed Quantification of Air Quality Benefits of Emissions Reductions-Part I: Benefit-per-Ton Estimates for Canada and the U.S.

ACS ES&T Air Pub Date : 2024-09-03 eCollection Date: 2024-10-11 DOI:10.1021/acsestair.4c00127

Shunliu Zhao, Petros Vasilakos, Anas Alhusban, Yasar Burak Oztaner, Alan Krupnick, Howard Chang, Armistead Russell, Amir Hakami

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Abstract

The U.S. EPA's Community Multiscale Air Quality (CMAQ)-adjoint model is used to map monetized health benefits (defined here as benefits of reduced mortality from chronic PM_2.5 exposure) in the form of benefits per ton (of emissions reduced) for the U.S. and Canada for NOx, SO₂, ammonia, and primary PM_2.5 emissions. The adjoint model provides benefits per ton (BPTs) that are location-specific and applicable to various sectors. BPTs show significant variability across locations, such that only 20% of primary PM_2.5 emissions in each country makes up more than half of its burden. The greatest benefits in terms of BPTs are for primary PM_2.5 reductions, followed by ammonia. Seasonal differences in benefits vary by pollutant: while PM_2.5 benefits remain high across seasons, BPTs for reducing ammonia are much higher in the winter due to the increased ammonium nitrate formation efficiency. Based on our location-specific BPTs, we estimate a total of 91,000 U.S. premature mortalities attributable to natural and anthropogenic emissions.

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时空详尽量化减排的空气质量效益--第一部分：加拿大和美国的每吨效益估算。

美国 EPA 的社区多尺度空气质量 (CMAQ) 联合模型用于绘制美国和加拿大氮氧化物、二氧化硫、氨和一次 PM2.5 排放的货币化健康效益图（此处定义为降低慢性 PM2.5 暴露死亡率的效益），其形式为每吨（减少的排放）效益。辅助模型提供的每吨效益（BPTs）针对具体地点并适用于不同行业。各地的 BPTs 显示出很大的差异，例如每个国家只有 20% 的一次 PM2.5 排放量占其负担的一半以上。就 BPTs 而言，减少一次 PM2.5 的效益最大，其次是氨。不同污染物的季节性效益差异各不相同：虽然 PM2.5 的效益在不同季节都很高，但由于硝酸铵形成效率的提高，减少氨的 BPT 在冬季要高得多。根据我们针对具体地点的 BPT，我们估计美国共有 91,000 例过早死亡可归因于自然和人为排放。

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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ACS ES&T Air

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