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Organic and inorganic sulphur compounds releases from high-pyrite coal pyrolysis in H2, N2 and CO2: Test case Chinese LZ coal.

Authors :
Gu, Ying
Yperman, Jan
Vandewijngaarden, Jens
Reggers, Guy
Carleer, Robert
Source :
Fuel. Aug2017, Vol. 202, p494-502. 9p.
Publication Year :
2017

Abstract

The effects of different atmospheres on the distribution of organic and inorganic sulphur compounds during high-pyrite coal pyrolysis were investigated. Sulphur compound releases were determined by atmospheric pressure-temperature programmed reduction (AP-TPR) “on-line” coupled with MS and AP-TPR “off-line” coupled with TD-GC/MS, which is a reliable technique for coal sulphur characterization. The results show that the decomposition of both organic and inorganic sulphur is different in the three applied atmospheres: H 2 , N 2 and CO 2 . In H 2 , most sulphur from LZ coal is hydrogenated/reduced to H 2 S, decomposition of inorganic sulphur (pyrite and sulphates) has a great effect on the formation of H 2 S. It not only enhances the intensity of its m / z 34 signal but also shifts the peak maximum of its profile to a higher temperature, even without a returning to the base line. In inert N 2 gas, as expected, hydrogenation of some sulphur compounds such as less-reactive di-aryl sulphur species and simple thiophenic structures are highly limited. The dominant peak of m / z 34 can also be related to the reduction of pyrite. In CO 2 , coal sulphur is mainly converted into SO 2 /SO, because CO 2 is a more reactive gas and rather acts as an oxidizing agent. Decomposition of organic sulphonic acids occurs before 500 °C and of sulphonics/sulphoxides after 500 °C. The decomposition of sulphates and pyrite is better detectable in CO 2 than in inert gas atmosphere. After 800 °C char gasification in CO 2 results in further decomposition of sulphur compounds and lower sulphur retention. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00162361
Volume :
202
Database :
Academic Search Index
Journal :
Fuel
Publication Type :
Academic Journal
Accession number :
123133169
Full Text :
https://doi.org/10.1016/j.fuel.2017.04.068