Preparation of magnetic coal-based activated carbon
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Abstract
Magnetic coal-based activated carbons (MCAC) were prepared from Datong bituminous coal in the presence of different amounts of Fe3O4. Their pore structures were characterized by N2 adsorption isotherm, and their iodine value, methylene blue value and magnetic properties were determined. The results show that Fe3O4 in the raw material is of importance to mesopores formation, and the ratio of mesopore volume reaches up to 76.0% when the mass fraction of Fe3O4 in the raw material is 10%. The iodine value decreases by 25.5% and the methylene blue value increases by 79.9% for the activated carbon with 7% Fe3O4 compared with common activated carbon without additives. A proper amount of Fe3O4 in the raw material makes it possible to grant the activated carbon with a higher magnetism and a bigger magnetoconductivity:MCACs derived from the raw materials containing 4% Fe3O4 and 7% Fe3O4 possess the magnetizations greater than common activated carbon by 24.4 times and 44.5 times, respectively.
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