Temperature‐dependent kinetics of the gas‐phase reactions of Cl atoms with nopinone, ketolimonene, and myrtenal

Author:

Fakih Mariam1ORCID,Roth Estelle1,Tomas Alexandre2,Chakir Abdelkhaleq1

Affiliation:

1. Groupe de Spectrométrie Moléculaire et Atmosphérique GSMA UMR CNRS 7331 Université de Reims Reims Cedex 2 France

2. IMT Nord Europe Institut Mines‐Télécom Univ. Lille Center for Energy and Environment Lille France

Abstract

AbstractIn this study, the gas phase reaction of chlorine atoms with three first‐generation oxidation products of monoterpene: (myrtenal C10H14O, nopinone C9H14O, and ketolimonene C9H14O) were investigated using a relative technique method. These compounds result from the atmospheric oxidation of monoterpene compounds such as α/β – pinene and limonene. Experiments were performed at temperature range 298–353 K and atmospheric pressure in synthetic air bath gas. Cl atoms were generated by UV photolysis of dichloride (Cl2). The reaction was followed using a proton‐transfer reaction mass spectrometer (PTR‐MS) and/or Fourier‐transform infrared spectroscopy (FTIR) to monitor the concentrations of the investigated species simultaneous with several reference compounds as a function of time. The rate constants were obtained and the Arrhenius expressions (cm3 molecule−1 s−1) obtained were established over the temperature range of 298–353 K:knopinone + Cl =  (5.0  ±  1.2) ×  10−10 exp ( − (406  ±  78) /T)kketolimonene + Cl =  (8.88 ±  1.3) × 10−10 exp( − (246 ± 46)/T)kmyrtenal + Cl =  (13.5 ±  6.4) × 10−10 exp( − (535 ±  153)/T)Based on rate constants, the atmospheric lifetimes (τ) of targeted compounds with respect to reaction with chlorine atoms were estimated and expected to be less than 1 day. There results led to conclude that the reaction with chlorine atoms can be an effective tropospheric loss pathway mainly in regions presenting relatively high chlorine concentrations.

Publisher

Wiley

Subject

Inorganic Chemistry,Organic Chemistry,Physical and Theoretical Chemistry,Biochemistry

Reference36 articles.

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