Sulfur dioxide adsorption over activated lignite char prepared from fluidized bed pyrolysis

Authors
Lee, J.K.Suh, D.J.Park, D.Park, S.
Issue Date
1994-01
Citation
Chemical Engineering Science, v.49, no.24 PART A, pp.4483 - 4489
Abstract
Gravimetric analysis was carried out to investigate the relationship between SO2 adsorption capacity and pyrolysis conditions for chars prepared from fluidized bed pyrolysis of lignite at various conditions. It was found that pyrolysis temperature was the primary variable affecting SO2 adsorption capacity of chars while effects of steam and oxygen concentration in the fluidizing gas were not significant within the range of experimental conditions. The maximum SO2 adsorption capacity of chars was observed at the pyrolysis temperature of about 700°C. This can be attributed to oxygen functional groups on carbons which are believed to adsorb SO2 through oxidation. Paucity of them can lead to poor SO2 adsorption capacity of carbons. However, too many of them per unit surface area is expected to hinder the adsorption through repulsive interactions of adsorbed SO2 present in the adsorbed multilayer. Therefore there exists an optimal amount of oxygen-functional groups on the carbon surface for the maximum SO2 adsorption capacity. ? 1995 Elsevier Science Ltd All rights reserved.
Keywords
Adsorption; Carbon; Gases; Gravimetric analysis; Multilayers; Oxidation; Oxygen; Pyrolysis; Steam; Sulfur dioxide; Temperature; Activated lignite char; Fluidized bed pyrolysis; Fluidized gas; Oxygen concentration effect; Oxygen functional group; Pyrolysis temperature; Repulsive interaction; Steam effect; Sulfur dioxide adsorption capacity; Charcoal; Adsorption; Carbon; Gases; Gravimetric analysis; Multilayers; Oxidation; Oxygen; Pyrolysis; Steam; Sulfur dioxide; Temperature; Activated lignite char; Fluidized bed pyrolysis; Fluidized gas; Oxygen concentration effect; Oxygen functional group; Pyrolysis temperature; Repulsive interaction; Steam effect; Sulfur dioxide adsorption capacity; Charcoal; sulfur dioxide; adsorption; lignite char; fluidized-bed; pyrolysis.
ISSN
0009-2509
URI
https://pubs.kist.re.kr/handle/201004/145907
DOI
10.1016/S0009-2509(05)80034-X
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KIST Article > Others
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