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Kinetic modeling of low-temperature oxidation of coal

Wang, H., Dlugogorski, B.Z. and Kennedy, E.M. (2002) Kinetic modeling of low-temperature oxidation of coal. Combustion and Flame, 131 (4). pp. 452-464.

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A kinetic model has been developed for determining the rate of oxygen consumption and production of carbon oxides during the oxidation of coal at low temperatures (i.e. <100°C), based on current understanding of the mechanism of coal oxidation. The chemical reactions considered in the model include two parallel sequences consuming oxygen and two thermal decomposition pathways producing carbon oxides. The resulting rate expressions reflect the contributions of various reactions consuming oxygen and producing carbon oxides and predict the effects of temperature, oxidation time and [O2] in the gas phase. The general form of the rate expressions confirms that chemisorption is relatively fast, only playing an important rôle at the early stage of coal oxidation. With the formation of stable and unreactive oxygenated complexes in a coal's structure, the oxidation of coal is dominated by thermal decomposition of oxygenated complexes.

Item Type: Journal Article
Publisher: Elsevier Inc
Copyright: © 2002 by The Combustion Institute.
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