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Kinetics of the reaction of OH radicals with a series of ethers under simulated atmospheric conditions at 295 K

✍ Scribed by Timothy J. Wallington; Jean M. Andino; Loretta M. Skewes; Walter O. Siegl; Steven M. Japar

Publisher: John Wiley and Sons
Year: 1989
Tongue: English
Weight: 453 KB
Volume: 21
Category: Article
ISSN: 0538-8066
DOI: 10.1002/kin.550211103

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✦ Synopsis

Ethers are being increasingly used as motor fuel additives to increase the octane number and to reduce CO emissions. Since their reaction with hydroxyl radicals (OH) is a major loss process for these oxygenated species in the atmosphere, we have conducted a relative rate study of the kinetics of the reactions of OH radicals with a series of ethers and report the results of these measurements here. Experiments were performed under simulated atmospheric conditions; atmospheric pressure (2740 torr) in synthetic air a t 295 K. Using rate constants of 2.53 x lo-", and 1.35 x lo-'' cm3 molecule-' s-l for the reaction of OH radicals with n-butane and diethyl ether, the following rate constants were derived, in units of lo-" cm3 molecule-' sf': dimethylether, (0.232 2 0.023); di-n-propylether, (1.97 2 0.08); di-n-butylether, (2.74 2 0.32); di-n-pentylether, (3.09 5 0.26); methyl-t-butylether, (0.324 2 0.008); methyl-nbutylether, (1.29 * 0.03); ethyl-n-butylether, (2.27 2 0.09); and ethyl-t-butylether, (0.883 0.026). Quoted errors represent 2u from the least squares analysis and do not include any systematic errors associated with uncertainties in the reference rate constants used to place our relative measurements on an absolute basis. The implications of these results for the atmospheric chemistry of ethers are discussed.

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