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Modeling of flame characteristics under O 2 /CO 2 atmosphere by detailed chemical kinetics
Author(s) -
Zhao Ran
Publication year - 2013
Publication title -
greenhouse gases: science and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.45
H-Index - 32
ISSN - 2152-3878
DOI - 10.1002/ghg.1350
Subject(s) - combustion , atmosphere (unit) , adiabatic flame temperature , ignition system , premixed flame , chemistry , flame structure , adiabatic process , thermodynamics , materials science , analytical chemistry (journal) , environmental chemistry , organic chemistry , combustor , physics
Oxy‐fuel (O 2 /CO 2 ) combustion is one of the several promising new technologies which can realize the integrated control of CO 2 , SO 2 , NO X , and other pollutants. The most significant feature of oxy‐fuel combustion is the presence of high CO 2 concentration in the combustion atmosphere. As the physical and chemical properties of CO 2 and N 2 are very different, the flame characteristics of fuels under O 2 /CO 2 atmosphere can be quite different from those under conventional air atmosphere. Up to now, the variation of flame characteristics of n‐alkanes and the reaction mechanisms under O 2 /CO 2 atmosphere have been unclear. In this paper, flame characteristics of three typical pre‐mixed flames were studied under both ordinary air atmosphere and O 2 /CO 2 atmospheres over a wide range of CO 2 concentrations in the combustion systems. A unified detailed chemical kinetic model was also validated and used to simulate the flame characteristics of the three types of fuels. Based on the verified model, the influences of various parameters (atmosphere, excess oxygen ratio, O 2 concentration, CO 2 concentration, and alkane type) on the flame characteristics were systematically investigated. It can be concluded that a high CO 2 concentration atmosphere has different effects on the ignition, laminar flame speed, and adiabatic temperature characteristics. This work confirms that the chemical effects of CO 2 play a pronounced role on the flame characteristics, especially for the ignition time property. These calculations also give new insight into the complexity of the effects of the high CO 2 concentration atmosphere and should help to improve the understanding of experimentally measured oxy‐fuel combustion and flame characteristics in the literature.