J. Tardieu de Maleissye scite author profile

The reaction pathways of n-butoxy and s-butoxy radicals have been investigated by TLC and HPLC analysis of end products, particularly peroxides and carbonyl compounds. The butoxy radicals were produced by the pyrolysis of very low concentrations of the corresponding dibutylperoxide in an atmosphere of oxygen and nitrogen, at atmospheric pressure. The decomposition reaction (3) s-BuO + CZHs + CHSCHO and the reaction (2) s-BuO + 0 2 ---f HOz + CH3COC2H6 have been studied, and the ratio k3/k2 has been determined in the temperature range 363-503 K by kinetic modeling of the formation of the observed acetaldehyde and methylethylketone. The rate constant kt obtained was: log,, k3/s-l = (13.8 f : : : ) -(15.0 * 0.9) kcal mo1-'/2.303 R T .A good agreement was observed between experimental data and RRKh4 theory. The implications of the results for atmospheric chemistry and combustion are discussed. At room temperature, the reaction with 02, yielding HOz radicals and methylethylketone is, by far, the main channel for s-BuO radicals. In the field of low temperature combustion, the decomposition of s-BuO radicals producing CzHS and CH3CH0 is the main pathway; the route s-BuO + 0 2 decreases tremendously in importance as the temperature is raised above 393 K.

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Nondestructive Analysis of Metallic Elements in Diesel Soot Collected on Filter: Benefits of Laser Induced Breakdown Spectroscopy

Lombaert

Morel

Moyne

et al. 2004

Plasma Chemistry and Plasma Processing

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Experimental Study of Pah in Engine Soot by Isotopic Tracing

Lombaert

Moyne

Maleissye

et al. 2006

Combustion Science and Technology

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Chapter Introduction –

Maleissye¹

1986

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