Sulfur Behavior in the Sasol−Lurgi Fixed-Bed Dry-Bottom Gasification Process

This article reports on the findings of a study regarding the sulfur behavior across a Sasol−Lurgi gasifier. This was undertaken to understand the behavior of the various sulfur-bearing components in the coal, as they are exposed to the conditions in the gasifier. In this study, conventional charact...

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Bibliographic Details
Published in:Energy & fuels 2009-01, Vol.23 (1), p.229-235
Main Authors: Skhonde, M. Pat, Matjie, R. Henry, Bunt, J. Reginald, Strydom, A. Christien, Schobert, Herold
Format: Article
Language:English
Subjects:
01 COAL, LIGNITE, AND PEAT
Applied sciences
ASHES
COAL GASIFICATION
DECOMPOSITION
Devices using thermal energy
Dryers
EMISSION
Energy
Energy. Thermal use of fuels
Environmental
Exact sciences and technology
HYDROGEN SULFIDES
IRON OXIDES
LURGI PROCESS
MINERALS
ORGANIC SULFUR COMPOUNDS
PYRITE
PYRRHOTITE
SULFUR
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Summary:This article reports on the findings of a study regarding the sulfur behavior across a Sasol−Lurgi gasifier. This was undertaken to understand the behavior of the various sulfur-bearing components in the coal, as they are exposed to the conditions in the gasifier. In this study, conventional characterization techniques were employed to monitor the behavior of sulfur-bearing mineral matter across the gasifier. It was observed from the study that the sulfur-bearing mineral (pyrite) in the coal structure undergoes various changes with pyrite being transformed to pyrrhotite and then to various oxides of iron with the subsequent loss of sulfur to form H2S. A low proportion of the sulfur species including the organically associated sulfur was encapsulated by a melt that was formed by the interaction between kaolinite and fluxing minerals (pyrite, calcite, and dolomite/ankerite) present in the coal at elevated temperatures and pressure, thereby ending up in the ash. The remaining small proportions of sulfur-bearing mineral matter including pyrite and organically bound sulfur in the unburned carbon in the carbonaceous shales also report to the ash.
ISSN:0887-0624
1520-5029
DOI:10.1021/ef800613s