Tandem fluidized bed elutriatoraPneumatic classification of coal particles in a fluidized conveyer

Coal moisture control (CMC) in coking process, which reduces coal moisture before loading the coal into the coke oven, allows substantial reduction in coking energy consumption and increase in coke productivity. The technology is seeking to integrate the coal classification, thus calling it the coal...

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Veröffentlicht in:	Particuology 2012-10, Vol.10 (5), p.600-606
Hauptverfasser:	Liu, Zhouen, Xie, Yimin, Wang, Yin, Yu, Jian, Gao, Shiqiu, Xu, Guangwen
Format:	Artikel
Sprache:	eng
Schlagworte:	Classification Coal Coking Conveying Fluidized beds Fluidizing Mathematical analysis Reactors
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creator	Liu, Zhouen Xie, Yimin Wang, Yin Yu, Jian Gao, Shiqiu Xu, Guangwen
description	Coal moisture control (CMC) in coking process, which reduces coal moisture before loading the coal into the coke oven, allows substantial reduction in coking energy consumption and increase in coke productivity. The technology is seeking to integrate the coal classification, thus calling it the coal classifying moisture control (CCMC), to separate the fine and coarse coal fractions in the CMC process so that the downstream coal crushing can only treat the coarse fraction. CCMC adopts a reactor that integrates a fluidized bottom section and a pneumatic conveying top section. The present work investigates the pneumatic classification behavior in a laboratory CCMC reactor with such a configuration by removing the coal fraction below a given size (e.g., 3.0 mm) from a 0 to 20.0 mm coal feed. The results show that the coal classification were dominated by the gas velocity in the top conveying section, and the required gas velocity for ensuring the maximal degree of removing a fine coal fraction could be roughly predicted by the Richardson and Zaki equation. The effect of bottom fluidization on the performance of CCMC is also examined.
doi_str_mv	10.1016/j.partic.2012.03.005
format	Article
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The technology is seeking to integrate the coal classification, thus calling it the coal classifying moisture control (CCMC), to separate the fine and coarse coal fractions in the CMC process so that the downstream coal crushing can only treat the coarse fraction. CCMC adopts a reactor that integrates a fluidized bottom section and a pneumatic conveying top section. The present work investigates the pneumatic classification behavior in a laboratory CCMC reactor with such a configuration by removing the coal fraction below a given size (e.g., 3.0 mm) from a 0 to 20.0 mm coal feed. The results show that the coal classification were dominated by the gas velocity in the top conveying section, and the required gas velocity for ensuring the maximal degree of removing a fine coal fraction could be roughly predicted by the Richardson and Zaki equation. 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source	Elsevier ScienceDirect Journals Complete; Alma/SFX Local Collection
subjects	Classification Coal Coking Conveying Fluidized beds Fluidizing Mathematical analysis Reactors
title	Tandem fluidized bed elutriatoraPneumatic classification of coal particles in a fluidized conveyer
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