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Abstract
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In this study, the feasibility for chemical looping combustion (CLC) with a solid fuel was investigated using a
novel synthesized nickel-based oxygen carrier (OC) supported by zirconia-shelled ?- alumina (35% NiO/Al2O3@
Zr) in a TGA. The nickel-based OC was impregnated over an alumina support which was coated by mesoporous
zirconia shell via core-shell method. A grain size distribution model (GSDM) was developed based on the prediction of an initial grain size distribution considering “pore to sphere” factor to describe the kinetics of reduction and oxidation reactions in CLC process with solid fuel. The crystalline phase and physical properties of
the synthesized OC was obtained using XRD, and BET/BJH methods. The predicted fractional conversion over
time of 35% NiO/Al2O3@Zr in reduction and oxidation reactions obtained by the GSDM correlated closely with
the experimental data
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