Inhibition of steam gasification of char by volatiles in a fluidized bed under continuous feeding of a brown coal

Inhibition of steam gasification of char by volatiles in a fluidized bed under continuous feeding of a brown coal

Steam gasification of a Victorian brown coal was performed in an atmospheric bubbling fluidized-bed reactor with continuous feeding of the coal. The gasification converted no more than 28, 51 and 71% of the nascent char (on a carbon basis) at 1120, 1173 and 1223 K, respectively. The char recovered f...

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Bibliographic Details
Published in:Fuel (Guildford) Vol. 85; no. 3; pp. 340 - 349
Main Authors: Bayarsaikhan, Bazardorj, Sonoyama, Nozomu, Hosokai, Sou, Shimada, Taihei, Hayashi, Jun-ichiro, Li, Chun-Zhu, Chiba, Tadatoshi
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-02-2006
Elsevier
Subjects:
Applied sciences
Brown coal
Energy
Exact sciences and technology
Fluidized bed
Fuel processing. Carbochemistry and petrochemistry
Fuels
Hydrogen
Processing
Solid fuel processing (coal, coke, brown coal, peat, wood, etc.)
Steam gasification
Volatiles
Wood. Peat. Brown coal
Hydrogen
Steam gasification
Volatiles
Brown coal
Fluidized bed
Fluidized bed reactor
Chemisorption
Lignite
Char
Gasification
Inhibition
Water vapor
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Summary:Steam gasification of a Victorian brown coal was performed in an atmospheric bubbling fluidized-bed reactor with continuous feeding of the coal. The gasification converted no more than 28, 51 and 71% of the nascent char (on a carbon basis) at 1120, 1173 and 1223 K, respectively. The char recovered from the fluidized bed was, nonetheless, gasified toward complete conversion when exposed to steam in another reactor, in which volatiles from the pyrolysis were absent while interaction between the char and products from the gasification was minimized. Atmosphere created in the fluidized bed thus prevented the char gasification from taking place beyond upper-limit conversion. In the absence of volatiles, nascent char underwent gasification catalyzed by inherent metallic species and non-catalytic gasification in parallel. The non-catalytic gasification was greatly decelerated by the presence of H 2 in the gas phase due to its dissociative chemisorption onto free carbon sites forming H-laden carbon. H 2 was, however, not a so strong inhibitor as to terminate the gasification. It was rather suggested that much more H-laden carbon was formed through dissociative chemisorption of volatiles and/or chemisorption of hydrogen radical from thermal cracking of volatiles in the gas-phase, which resulted in prevention of the non-catalytic gasification. It seemed that the char was converted in the fluidized-bed mainly by the catalytic gasification, while the conversion was limited due to deactivation of metallic species within the char matrix and their release from the char.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2005.06.001