A Flow Tube Kinetics Study of Methyl Chloride Oxidation
作者:
S. L. HUNG,
L. D. PFEFFERLE,
期刊:
Combustion Science and Technology
(Taylor Available online 1993)
卷期:
Volume 87,
issue 1-6
页码: 91-107
ISSN:0010-2202
年代: 1993
DOI:10.1080/00102209208947209
出版商: Taylor & Francis Group
关键词: Chlorinated hydrocarbons;incineration
数据来源: Taylor
摘要:
The fuel-lean oxidation of methyl chloride was investigated using flow tube kinetics experiments coupled with plug and laminar flow models that included detailed reaction chemistry. Acetylene, vinyl chloride, ethylene, methane and CO were observed as the major reaction products at partial conversion conditions. A sensitivity analysis combined with a rate of production analysis for key species observed experimentally was used to identify reaction bottlenecks in the initial literature model used. Rates for the CH2CL + CH2CL and CH3+ CH2CL recombination reactions were estimated using QRRK analysis. The modified model accurately predicted experimental measurements of both methyl chloride conversion and intermediate product species profiles as a function of temperature. Model and experimental results highlight the difference in oxidation pathway between lean and rich conditions. Oxidative pyrolysis speeds CH3CL destruction and enhances CH2CL production leading to formation of C2H3CL. C2 production is also enhanced due to the relative difficulty in oxidizing CH3CL compared to CH3. Both model and experimental results also demonstrate that high destruction levels for lean methyl chloride oxidation can be achieved at moderately high (< 1335 K) temperatures with low residence times (< 16 ms) assuming plug flow and hot wall conditions are maintained.
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