Influence of Fe₂O₃ and CaCO₃ Addition on the Coking of Gooneylla Coal

Abstract

In the present study, we have conducted a fundamental study to understand the reasons for the deterioration by the pre-addition of catalysts such as Fe₂O₃ and CaCO₃ to a coking coal, Goonyella. The addition of Fe₂O₃ resulted in the reductions in the maximum fluidity (log MF) and the drum index (DI), when the Fe₂O₃ of 0.31 μm were introduced to the coal. Of course the increase in the reactivity toward the solution-loss reaction was observed as previously reported. While in the case of the addition of CaCO₃, no distinct changes in log MF, DI and CRI were observed irrespective of the size and the contents of CaCO₃. The conversion of TI-PS (toluene insoluble and pyridine soluble) fraction to TS fraction was observed when the Fe₂O₃-added coal was heat-treated up to 440°C, while no changes were observed for the CaCO₃-added coal. No signs of catalytic graphitization took place judged by X-ray diffraction study. The addition of Fe₂O₃ produced hollow balloon-like structure with 10 nm-thickness-amorphous carbon walls, while such formation was not observed for the case of CaCO₃ addition. Finally, we concluded that the deterioration in the coke strength by the pre-addition of Fe₂O₃ is caused by the insufficient adhesion of coal particles due to the reduction of the TI-PS fraction as well as by the formation of the fragile balloon-like structures.