Article ID Journal Published Year Pages File Type
4915732 Applied Energy 2017 12 Pages PDF
Abstract
AG diffusion flame could be divided into three zones, namely AG decomposition, oxidation and complex reaction zones, among which decomposition zone is tightly associated with formation of COS and CS2. It is shown that Φ generally determines the flame temperature and controls the H2S oxidation degree and production rate of H2 and CO. Reactivity of CO2 primarily expressed via CO2 + H = CO + OH during the fuel rich flame. COS is primarily produced in the flame inner core via reactions jointing CO2 and sulfur species, consequently its formation shows a low sensitivity to Φ in the air-supplied flame. O2 enrichment basically contributes to higher flame temperature, accelerated H2S oxidation and advanced CO production. Also an increasing tendency for H2S to decompose into H2 and S2 can be observed. And this factor directly triggers the formation of COS and CS2 via increasing the presence of CO and sulfur species. COS is formed within extended channels involving the primary production by reaction of SH + CO2 and the secondary by reactions between CO and sulfur species. The CS2 formation is more complex, mainly comprises of reactions involving CS intermediate and evidently it is enhanced under O2 enriched combustion.
Related Topics
Physical Sciences and Engineering Energy Energy Engineering and Power Technology
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