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Abstract
A two-stage combustor facility is used to investigate methylene chloride (CH2Cl2) incineration and formation of products of incomplete combustion (PIC). For measuring low concentrations of CH2Cl2, on-line microtrap gas chromatography is employed. Destruction efficiency of CH2Cl2 over a wide range of feed concentrations was investigated under fuel-lean and fuel-rich ethylene/air combustion conditions. The impact of CH2Cl2 on the formation of PICs such as methane, ethylene, ethane, and acetylene is investigated. The combustion process is simulated using an ideal reactor model and a detailed chemical reaction mechanism. Rate-of-production analyses based on modeling results show that there are different pathways for the destruction of CH2Cl2 under fuel-lean and fuel-rich conditions. As shown by experimental results, the destruction efficiency is lower at lower inlet concentrations. Simulations of experimental results have shown that the significance of various radicals and destruction channels varies with combustion conditions and concentration of organics, and that atoms and fragments of destroyed molecules play an important role in further destruction of parent species.