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    Please use this identifier to cite or link to this item: http://ir.fy.edu.tw/ir/handle/987654321/10068


    Title: Transient Gasification and Syngas Formation from Coal Particles in a Fixed-Bed Reactor
    Authors: Chen,Wei-Hsin;Chen,Jeng-Chung;Tsai, Ching-Da;Jiang, Tsung Leo
    Contributors: 輔英科技大學 環境工程與科學系
    Keywords: coal;gasification;syngas;combustion;char
    Date: 2007-07
    Issue Date: 2010-11-17 16:27:12 (UTC+8)
    Abstract: An experimental investigation on gasification and syngas formation from coal particles in a fixed-bed reactor is conducted; particular attention is paid to the transient reaction dynamics. Three different coals, including two high-volatile coals and a low-volatile coal, are taken into consideration. In the initial reaction period, a two-stage reaction is clearly observed; specifically, an exothermic reaction followed by an endothermic reaction is exhibited. Meanwhile, seeing that the devolatilization and pyrolysis reactions are pronounced, the initial concentrations of H2 and CH4 are relatively high, especially for the former. With increasing time, the interaction between coal and char particles is dominated by the latter, the concentrations of CO and CO2 thus become higher. From the observation of syngas combustion, the entire gasification intensity proceeds from intensified growth, rapid decay, and then to progressive decay with increasing reaction time. For the two high-volatile coals, the mass depletion is enhanced markedly once the reaction temperature is as high as 1000�C, whereas it is insensitive to the temperature for the low-volatile coal. Nevertheless, it is found that, based on the weights of moisture and volatile matter, their relative release ratio from the low-volatile coal is better than that from the high-volatile coals. This implies that the final devolatilization and pyrolysis extent is not determined by coal grade.
    Relation: International Journal of Energy Research,Volume 31, Issue 9, pages 895–911
    Appears in Collections:[環境工程與科學系] 期刊論文

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