Simulation Chamber Studies of the Atmospheric Oxidation of 2-Methyl-3-Buten-2-ol: Reaction with Hydroxyl Radicals and Ozone Under a Variety of Conditions期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

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Simulation Chamber Studies of the Atmospheric Oxidation of 2-Methyl-3-Buten-2-ol: Reaction with Hydroxyl Radicals and Ozone Under a Variety of Conditions

Authors:	N Carrasco J F Doussin M O’Connor J C Wenger B Picquet-Varrault R Durand-Jolibois P Carlier

Institution:	(1) LISA, Université Paris 12, 61 avenue du Général de Gaulle, 94010 Créteil Cedex, France;(2) Department of Chemistry and Environmental Research Institute, University College Cork, Cork, Ireland

Abstract:	This article presents a complete study of the diurnal chemical reactivity of the biogenic volatile organic compound (BVOC), 2-methyl-3-buten-2-ol (MBO) in the troposphere. Reactions of MBO with OH and with ozone were studied to analyse the respective parts of both processes in the global budget of MBO atmospheric reactivity. They were investigated under controlled conditions for pressure (atmospheric pressure) and temperature (298 ± 2 K) using three complementary European simulation chambers. Reaction with OH radicals was studied in the presence of and in the absence of NO_x. The kinetic study was carried out by relative rate study using isoprene as a reference. The rate constant found for this reaction was $k_{{{\text{MBO}} + {\text{OH}}}} = {\left( {5.6 \pm 0.6} \right)} \times 10^{{ - 11}}$ molecule⁻¹ cm³ s⁻¹. FTIR spectroscopy, DNPH- and PFBHA-derivatisation analyses were performed for reactions with both OH radicals and ozone. In both reactions, the hydroxycarbonyl compound, 2-hydroxy-2-methylpropanal (HMPr) was positively identified and quantified, with a yield of $R_{{{\text{HM}}\Pr }} = 0.31 \pm 0.11$ in the reaction with OH, and a yield of $R_{{{\text{HM}}\Pr }} = 0.43 \pm 0.12$ and 0.84 ± 0.08 in the reaction with ozone under dry (HR < 1%) and humid conditions (HR = 20%–30%). A primary production of two other carbonyl compounds, acetone $R_{{{\text{acetone}}}} = 0.39 \pm 0.22$ , and formaldehyde $R_{{{\text{HCHO}}}} = 0.44 \pm 0.05$ was found in the case of the dry ozonolysis experiments. Under humid conditions, only formaldehyde was co-produced with HMPr as a primary carbonyl compound, with a yield of $R_{{{\text{HCHO}}}} = 0.55 \pm 0.03$ . For the reaction with OH, three other carbonyl compounds were detected, acetone $R_{{{\text{acetone}}}} = 0.67 \pm 0.05$ , formaldehyde $R_{{{\text{HCHO}}}} = 0.33 \pm 0.08$ and glycolaldehyde $R_{{{\text{glycolaldehyde}}}} = 0.78 \pm 0.20$ . In addition some realistic photo-oxidation experiments were performed to understand in an overall way the transformations of MBO in the atmosphere. The realistic photo-oxidation experiments were conducted in the EUPHORE outdoor simulation chamber. It was found that this compound is a weak secondary aerosol producer (less than 1% of the carbon balance). But it was confirmed that it is a potentially significant source of acetone, ΔAcetone]/ΔMBO] = 0.45. With our experimental conditions (MBO]₀ = 200 ppb, NO]o = 50 ppb), an ozone yield of ΔO₃]/ΔMBO] = 1.05 was found.

Keywords:	biogenic hydroxyl radicals 2-methyl-3-buten-2-ol ozonolysis photo-oxidation
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