Mechanism and kinetic studies for OH radical-initiated atmospheric oxidation of methyl propionate

Add time:07/29/2019    Source:sciencedirect.com

DFT molecular orbital theory calculations were carried out to investigate OH radical-initiated atmospheric oxidation of methyl propionate. Geometry optimizations of the reactants as well as the intermediates, transition states and products were performed at the B3LYP/6-31G(d,p) level. As the electron correlation and basis set effect, the single-point energies were computed by using various levels of theory, including second-order Møller–Plesset perturbation theory (MP2) and the coupled-cluster theory with single and double excitations including perturbative corrections for the triple excitations (CCSD(T)). The detailed oxidation mechanism is presented and discussed. The results indicate that the formation of 3-oxo-methyl propionate (HC(O)CH2C(O)OCH3) is thermodynamically feasible and the isomerization of alkoxy radical IM17 (CH3CH(O)C(O)OCH3) can occur readily under the general atmospheric conditions. Canonical variational transition-state (CVT) theory with small curvature tunneling (SCT) contribution was used to predict the rate constants. The overall rate constants were determined, k(T)(CH3CH2COOCH3 + OH) = (1.35 × 10−12)exp(−174.19/T) cm3 molecule−1 s−1, over the possible atmospheric temperature range of 180–370 K.

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