A comparative study on characteristics of sulfur and nitrogen transformation and gaseous emission for combustion of bituminous coal and char

[Display omitted] •Porosity and specific surface area of char were enlarged after coal pyrolysis.•Sulfur fixation with CaO existing in char was enhanced during combustion.•Emission of SO2 and NOx was significantly reduced in char combustion. The characteristics of sulfur and nitrogen transformation...

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Bibliographic Details
Published inCarbon resources conversion Vol. 1; no. 1; pp. 86 - 93
Main Authors Hou, Jili, Ma, Yue, Li, Shuyuan, Shang, Wenzhi
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2018
KeAi Communications Co., Ltd
Subjects
Char
Coal
Combustion
S/N
TG-FTIR
Transformation
XPS
Transformation
S/N
Char
Coal
Combustion
XPS
TG-FTIR
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Summary:[Display omitted] •Porosity and specific surface area of char were enlarged after coal pyrolysis.•Sulfur fixation with CaO existing in char was enhanced during combustion.•Emission of SO2 and NOx was significantly reduced in char combustion. The characteristics of sulfur and nitrogen transformation and the emissions’ comparison of sulfurous and nitrogenous gas were investigated using SEM, XPS, TG-FTIR and TG-gas analyzer during the combustion process of Shenmu bituminous coal (SM coal) and its char. SEM indicated that porosity and specific surface area of char were enlarged after coal pyrolysis and a large amount of space could be provided for the oxidation reaction of various sulfur species with oxide during the combustion process. The sulfur and nitrogen species of the two samples analyzed by XPS showed that, pyritic sulfur, organic sulfide sulfur, sulfone and sulfoxide sulfur in coal were partly transformed to thiophenic sulfur and sulfate sulfur in the pyrolysis of coal, and the total sulfur content in char was reduced. Besides, the sulfur and nitrogen species’ changes in SM coal, char and the ashes determined by XPS showed that sulfur fixation effect was enhanced in the presence of calcium oxide during combustion. The component analysis of the gas during combustion via TG-FTIR indicated that SO2 and NO2 began to escape at 300 °C and reached maximum at about 1100 °C, by contrast, the emissions of SO2 and NO2 of char were below that of SM coal throughout the whole combustion process. The wide range of TG-gas analyzer analysis revealed that the SO2 and NOx emissions of SM coal were 2.51 and 1.71 times as much as char burning, respectively.
ISSN:2588-9133
2588-9133
DOI:10.1016/j.crcon.2018.04.004