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Chemical mechanism development : laboratory studies and model application

Authors :
Geiger, H.
Barnes, I.
Grossmann, D.
Hass, H.
Hein, H.
Hoffmann, A.
Hoppe, L.
Hülsemann, F.
Kley, D.
Klotz, B.
Libuda, H. G.
Maurer, T.
Becker, K. H.
Mihelcic, D.
Moortgat, G. K.
Olariu, R.
Neeb, P.
Poppe, D.
Ruppert, L.
Sauer, C. G.
Shestakov, O.
Somnitz, H.
Stockwell, W. R.
Bohn, B.
Thüner, L. P.
Wahner, A.
Wiesen, P.
Zabel, F.
Zellner, R.
Zetzsch, C.
Brauers, T.
Donner, B.
Dorn, H.-P.
Elend, M.
Freitas Dinis, C. M.
Source :
Journal of atmospheric chemistry 42, 323-357 (2002). doi:10.1023/A:1015708517705
Publication Year :
2002
Publisher :
Springer Science + Business Media B.V, 2002.

Abstract

Within the German Tropospheric Research Programme (TFS) numerous kinetic and mechanistic studies on the tropospheric reaction/degradation of the following reactants were carried out:oxygenated VOC,aromatic VOC,biogenic VOC,short-lived intermediates, such as alkoxy and alkylperoxy radicals.At the conception of the projects these selected groups were classes of VOC or intermediates for which the atmospheric oxidation mechanisms were either poorly characterised or totally unknown. The motivation for these studies was the attainment of significant improvements in our understanding of the atmospheric chemical oxidation processes of these compounds, particularly with respect to their involvement in photooxidant formation in the troposphere.In the present paper the types of experimental investigations performed and the results obtained within the various projects are briefly summarised. The major achievements are highlighted and discussed in terms of their contribution to improving our understanding of the chemical processes controlling photosmog formation in the troposphere.

Details

Language :
English
Database :
OpenAIRE
Journal :
Journal of atmospheric chemistry 42, 323-357 (2002). doi:10.1023/A:1015708517705
Accession number :
edsair.od......3364..264c172dd418a868abd8afe17f7b2732
Full Text :
https://doi.org/10.1023/A:1015708517705