Formation of formic acid and organic peroxides in the ozonolysis of ethene with added water vapour

Formation of formic acid and organic peroxides in the ozonolysis of ethene with added water vapour

Ozonolysis of C2H4 was carried out in a 580 l glass reaction vessel at 1–5 ppm reactant concentrations, with added water vapour. Under dry conditions ([H2O]0 = 0.5 ppm), HCHO, CO, CO2, (CHO)2O (formic acid anhydride), H2O2, and CH3OOH were identified as the reaction products. Under wet conditions ([...

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Veröffentlicht in:Geophysical research letters 1994-07, Vol.21 (14), p.1523-1526
Hauptverfasser: Horie, Osamu, Neeb, Peter, Limbach, Stefan, Moortgat, Geert K.
Format: Artikel
Sprache:eng
Schlagworte:
Carbon dioxide
Carbon monoxide
Chemical composition and interactions. Ionic interactions and processes
Earth, ocean, space
Ethene
Exact sciences and technology
External geophysics
Formic acid
Meteorology
Organic peroxides
Peroxides
Radicals
Vapour
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Zusammenfassung:Ozonolysis of C2H4 was carried out in a 580 l glass reaction vessel at 1–5 ppm reactant concentrations, with added water vapour. Under dry conditions ([H2O]0 = 0.5 ppm), HCHO, CO, CO2, (CHO)2O (formic acid anhydride), H2O2, and CH3OOH were identified as the reaction products. Under wet conditions ([H2O]0 = 2 × 104 ppm), HCOOH yields approaching ca. 20% of the converted C2H4, were observed, while no (CHO)2O was formed. Hydroxymethyl hydroperoxide, HOCH2OOH, was observed as the major peroxide, and found to be formed only in the presence of water vapour. Direct reactions of H2O vapour with the excited CH2OO* radicals and with stabilized CH2OO radicals are postulated to explain the formation of HCOOH and HOCH2OOH in the presence of water vapour, respectively.
ISSN:0094-8276
1944-8007
DOI:10.1029/94GL01174