1. The catalytic effect of inner minerals on the combustion of oil shale char: Characteristics and mechanism.
- Author
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Yan, Yulin, Gao, He, Sui, Yi, Hu, Zhiyong, Han, Zhennan, and Xu, Guangwen
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FLUIDIZED-bed combustion , *AGGLOMERATION (Materials) , *COMBUSTION kinetics , *OIL shales , *SHALE oils , *FERRIC oxide , *CATALYSIS , *MINERAL oils - Abstract
To determine the effects of minerals inside char particles and bed materials, the process and mechanism of char combustion in a fluidized bed were studied using a Micro Fluidized Bed Reactor Analyzer. A demineralization procedure using HCl and HF was employed to remove the minerals from pyrolyzed char samples. Raman spectroscopy was used to study the carbon structure of the remaining solid char after demineralization at 500 °C, 600 °C, 700 °C and 800 °C. From the regular changes in band area ratio and full width at half maximum, it can be concluded that as pyrolysis temperature increases, the carbon structure becomes highly ordered, the plane lattice size gradually increases, and the reaction activity decreases from 0.245 s−1 to 0.138 s−1.Furthermore, minerals both within the char particle and in the external bed had marked catalytic activity on char combustion, and their combined catalysis was most notable. CaO and Fe 2 O 3 were the dominant active minerals components contributing to catalytic combustion of char in this study. The catalytic action of CaO was stronger than that of Fe 2 O 3. The activation energy of char combustion ranged from 57.70 kJ/mol to 91.53 kJ/mol, and it significantly decreased in the presence of the bed materials. • The contribution of the minerals in the char and the external material bed to the combustion of the char was studied. • The catalysis of oil shale ash in the external material bed is sometimes greater than the pyrolysis temperature. • CaO and Fe 2 O 3 have obvious catalytic activity. • CaO shows catalytic activity at both low and high temperature, whereas Fe 2 O 3 had strong activity only at low temperature. • The change of ordered carbon structure has a negative effect on the reaction rate of char combustion. • The catalytic mechanism of combustion is concluded. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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