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美国大气中甲醛和臭氧对前体物种和源类型的敏感性。

Sensitivity of Ambient Atmospheric Formaldehyde and Ozone to Precursor Species and Source Types Across the United States.

机构信息

U.S. Environmental Protection Agency , Office of Research and Development, National Exposure Research Laboratory , Research Triangle Park , North Carolina 27711 , United States.

U.S. Environmental Protection Agency , Office of Air Quality Planning and Standards , Research Triangle Park , North Carolina 27711 , United States.

出版信息

Environ Sci Technol. 2018 Apr 17;52(8):4668-4675. doi: 10.1021/acs.est.7b05509. Epub 2018 Apr 4.

DOI:10.1021/acs.est.7b05509
PMID:29570979
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6147010/
Abstract

Formaldehyde (HCHO) is an important air pollutant from both an atmospheric chemistry and human health standpoint. This study uses an instrumented photochemical Air Quality Model, CMAQ-DDM, to identify the sensitivity of HCHO concentrations across the United States (U.S.) to major source types and hydrocarbon speciation. In July, biogenic sources of hydrocarbons contribute the most (92% of total hydrocarbon sensitivity), split between isoprene and other alkenes. Among anthropogenic sources, mobile sources of hydrocarbons and nitrogen oxides (NO ) dominate. In January, HCHO is more sensitive to anthropogenic hydrocarbons than biogenic sources, especially mobile sources and residential wood combustion (36% of national hydrocarbon sensitivity). While ozone (O) is three times more sensitive to NO than hydrocarbons across most areas of the U.S., HCHO is six times more sensitive to hydrocarbons than NO , largely due to sensitivity to biogenic precursors and the importance of low-NO chemistry. In winter, both HCHO and O show negative sensitivity to NO (increases with the removal of NO ), although O increases are larger. Relative sensitivities do not change substantially across different regions of the country.

摘要

甲醛(HCHO)是一种重要的空气污染物,从大气化学和人类健康的角度来看都是如此。本研究使用配备有仪器的光化学空气质量模型(CMAQ-DDM),来确定美国(U.S.)范围内 HCHO 浓度对主要源类型和碳氢化合物形态的敏感性。在 7 月,生物源碳氢化合物的贡献最大(总碳氢化合物敏感性的 92%),其中包括异戊二烯和其他烯烃。在人为源中,碳氢化合物和氮氧化物(NO )的移动源占主导地位。在 1 月,HCHO 对人为源碳氢化合物的敏感性比生物源更强,特别是移动源和居民木材燃烧(占全国碳氢化合物敏感性的 36%)。虽然在美国的大部分地区,臭氧(O)对 NO 的敏感性比碳氢化合物高三倍,但 HCHO 对碳氢化合物的敏感性比 NO 高六倍,这主要是由于对生物前体的敏感性以及低 NO 化学的重要性。在冬季,HCHO 和 O 对 NO 的敏感性均为负值(随着 NO 的去除而增加),尽管 O 的增加幅度更大。相对敏感性在全国不同地区没有发生显著变化。

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