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Atmospheric degradation mechanism of organic sulfur compounds

Technical Report:

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Abstract

In the present work a detailed product study has been performed on the OH radical initiated oxidation of dimethyl sulphide and dimethyl sulphoxide, under different conditions of temperature, partial pressure of oxygen and NO{sub x} concentration, in order to better define the degradation mechanism of the above compounds under conditions which prevail in the atmosphere. (orig.)
Authors:
Publication Date:
Feb 01, 2002
Product Type:
Technical Report
Report Number:
ETDE-DE-1198
Resource Relation:
Other Information: PBD: Feb 2002; Related Information: Universitaet Wuppertal, Fachbereich 9 - Physikalische Chemie, PC. Bericht v. 57
Subject:
54 ENVIRONMENTAL SCIENCES; ATMOSPHERIC CHEMISTRY; CHEMICAL REACTION KINETICS; DIMETHYL SULFIDE; DMSO; TEMPERATURE DEPENDENCE; OXYGEN; PARTIAL PRESSURE; NITROGEN OXIDES; HYDROXYL RADICALS; OXIDATION; EXPERIMENTAL DATA; PHOTOCHEMISTRY; CHEMICAL REACTORS
OSTI ID:
20254669
Research Organizations:
Wuppertal Univ. (Gesamthochschule) (Germany). Fachbereich 9 - Physikalische Chemie
Country of Origin:
Germany
Language:
English
Other Identifying Numbers:
Other: ISSN 1436-2198; TRN: DE02G7283
Availability:
Available to ETDE participating countries only(see www.etde.org); commercial reproduction prohibited; OSTI as DE20254669
Submitting Site:
DE
Size:
132 pages
Announcement Date:
Aug 06, 2002

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Citation Formats

Benter, T, and Arsene, C. Atmospheric degradation mechanism of organic sulfur compounds. Germany: N. p., 2002. Web.
Benter, T, & Arsene, C. Atmospheric degradation mechanism of organic sulfur compounds. Germany.
Benter, T, and Arsene, C. 2002. "Atmospheric degradation mechanism of organic sulfur compounds." Germany.
@misc{etde_20254669,
title = {Atmospheric degradation mechanism of organic sulfur compounds}
 author = {Benter, T, and Arsene, C}
 abstractNote = {In the present work a detailed product study has been performed on the OH radical initiated oxidation of dimethyl sulphide and dimethyl sulphoxide, under different conditions of temperature, partial pressure of oxygen and NO{sub x} concentration, in order to better define the degradation mechanism of the above compounds under conditions which prevail in the atmosphere. (orig.)}
 place = {Germany}
 year = {2002}
 month = {Feb}
 }