甲基乙烯基酮的大气归宿：过氧自由基与一氧化氮和过氧化氢的反应。

Atmospheric fate of methyl vinyl ketone: peroxy radical reactions with NO and HO2.

作者信息

Praske Eric, Crounse John D, Bates Kelvin H, Kurtén Theo, Kjaergaard Henrik G, Wennberg Paul O

机构信息

†Division of Chemistry and Chemical Engineering, California Institute of Technology, 1200 E. California Blvd, Pasadena, California 91125, United States.

‡Division of Geological and Planetary Sciences, California Institute of Technology, 1200 E. California Blvd, Pasadena, California 91125, United States.

出版信息

J Phys Chem A. 2015 May 14;119(19):4562-72. doi: 10.1021/jp5107058. Epub 2015 Jan 8.

DOI:10.1021/jp5107058

PMID:25486386

Abstract

First generation product yields from the OH-initiated oxidation of methyl vinyl ketone (3-buten-2-one, MVK) under both low and high NO conditions are reported. In the low NO chemistry, three distinct reaction channels are identified leading to the formation of (1) OH, glycolaldehyde, and acetyl peroxy R2a , (2) a hydroperoxide R2b , and (3) an α-diketone R2c . The α-diketone likely results from HOx-neutral chemistry previously only known to occur in reactions of HO2 with halogenated peroxy radicals. Quantum chemical calculations demonstrate that all channels are kinetically accessible at 298 K. In the high NO chemistry, glycolaldehyde is produced with a yield of 74 ± 6.0%. Two alkyl nitrates are formed with a combined yield of 4.0 ± 0.6%. We revise a three-dimensional chemical transport model to assess what impact these modifications in the MVK mechanism have on simulations of atmospheric oxidative chemistry. The calculated OH mixing ratio over the Amazon increases by 6%, suggesting that the low NO chemistry makes a non-negligible contribution toward sustaining the atmospheric radical pool.

摘要

报告了在低NO和高NO条件下，由甲基乙烯基酮（3-丁烯-2-酮，MVK）经OH引发氧化产生的第一代产物产率。在低NO化学体系中，确定了三个不同的反应通道，分别导致生成（1）OH、乙醇醛和乙酰过氧自由基R2a，（2）一种氢过氧化物R2b，以及（3）一种α-二酮R2c。这种α-二酮可能源于先前仅在HO2与卤代过氧自由基反应中才知道会发生的HOx中性化学过程。量子化学计算表明，所有通道在298K时在动力学上都是可及的。在高NO化学体系中，乙醇醛的产率为74±6.0%。两种烷基硝酸盐的总产率为4.0±0.6%。我们修订了一个三维化学传输模型，以评估MVK机制中的这些变化对大气氧化化学模拟有何影响。计算得出，亚马逊地区上空的OH混合比增加了6%，这表明低NO化学过程对维持大气自由基池做出了不可忽视的贡献。

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甲基乙烯基酮的大气归宿：过氧自由基与一氧化氮和过氧化氢的反应。

Atmospheric fate of methyl vinyl ketone: peroxy radical reactions with NO and HO2.

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