Quantum chemical studies of the OH-initiated oxidation reactions of propenols in the presence of O2 |
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| Authors: | Xiaoyang Lei Dongping Chen Weina Wang Fengyi Liu |
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| Institution: | Key Laboratory for Macromolecular Science of Shaanxi Province, School of Chemistry and Chemical Engineering, Shaanxi Normal University, Xi’an, People’s Republic of China |
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| Abstract: | ABSTRACTThe atmospheric oxidation mechanisms of 1- and 2-propenol initiated by OH radical have been theoretically investigated at the CCSD(T)//BH&;HLYP/6-311?+?+G(d,p) level of theory. Conventional transition state theory was employed to predict the rate constants for the initial reaction channels. The calculations clearly indicate that OH-addition channels contribute maximum to the total reaction, both for 1- and 2-propenol, while H-abstraction channels can be neglected at the temperature range of 220–520?K. The calculated total rate constants at 298?K are 1.66?×?10?11 and 7.69?×?10?12 cm3?molecule?1?s?1 respectively for 1- and 2-propenol, which are in reasonable agreement with the experimental values of similar systems (vinyl ethers?+?OH reactions). The deduced Arrhenius expressions are k(OH?+?1-propenol)?=?1.43?×?10?12 exp(743.7?K)/T] and k(OH?+?2-propenol)?=?2.86?×?10?12 exp(310.5?K)/T] cm3?molecule?1?s?1. Under atmospheric condition, the OH-addition intermediates (CH3C?HCH(OH)2, CH3CH(OH)C?H(OH), CH3CH(OH)2?CH2, CH3?C(OH)CH2(OH)) are likely to react rapidly with O2, the theoretically identified major products for 1-propenol are HCOOH, CH3CHO and CH3CH(OH)CHO, and the dominant products for 2-propenol are CH3COOH, HCHO and CH3COCH2OH, both companied with the regeneration of OH and HO2 radicals (crucial reactive radicals in the atmosphere). |
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| Keywords: | Propenol OH radical reaction mechanism rate constant |
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