Abstract

The products formed by the hydroxyl radical-initiated oxidation of 2-ethoxyethanol (CH3CH2OCH2CH2OH) have been investigated by irradiating synthetic air mixtures containing the substrate, methyl nitrite, and nitric oxide at ppm levels in a Teflon bag reactor at room temperature. The decay of reactants and the formation of products were monitored by gas chro matography and mass spectrometry. The major products ethyl formate [HC(O)OCH2CH3], ethylene glycol monoformate [HC(O)OCH2CH2OH], ethylene glycol monoacetate [CH3C(O)OCH2CH2OH], and ethoxyacetaldehyde [CH3CH2OCH2C(O)H] give a quantitative mass balance with the decay of the substrate molecule. The yields of these products were 34 ± 10%, 36 ± 7%, 7.8 ± 2.4%, and 24 ± 13%, respectively, in terms of percent of 2-ethoxyethanol removed by the OH radical. The product distribution is explained by a mechanism involving initial OH attack at the three CH2 groups in 2-ethoxyethanol followed by the subsequent reac tions of the resulting alkyl and alkoxy radicals. The decomposition reactions of the alkoxy radicals from 2-ethoxyethanol, which can take place either by C−C or C−O bond breaking, involve preferential C−C cleavage rather than C−O cleavage. Rate coefficients at room temperature for the reactions of OH radicals with ethoxyacetaldehyde and 2-methyl-1,3-dioxolane (CH3CHOCH2CH2O, a minor product) have been determined to be 16.6 × 10-12 and 9.4 × 10-12 cm3 molecule-1 s-1, respectively.

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