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W2885209546 endingPage "553" @default.
W2885209546 startingPage "542" @default.
W2885209546 abstract "Abstract Partial oxidation provides a promising method for upgrading of heavy oil. In this study, a series of Ce doped Fe2O3 materials were prepared and applied for partial oxidation of vacuum residue. The effect of Ce doping on the physicochemical properties of Fe2O3 was recognized through a series of characterization techniques. Some Fe in Fe2O3 structure were substituted by Ce to form solid solution, resulting in increase of specific surface area and oxygen vacancy concentration. The partial oxidation of vacuum residue showed that Ce doping to Fe2O3 could increase the heavy oil conversion, yields of gasoline and diesel, which are attributed to the large specific surface area and increased oxygen vacancy concentration. Based on the partial oxidation performance of Ce doped Fe2O3, a chemical looping for upgrading of vacuum residue using FeCe-1 as oxygen carrier was proposed. The heavy oil conversion, yield of gasoline and diesel remain stable under chemical looping process." @default.
W2885209546 created "2018-08-22" @default.
W2885209546 creator A5004289681 @default.
W2885209546 creator A5024822456 @default.
W2885209546 creator A5026610344 @default.
W2885209546 creator A5032528335 @default.
W2885209546 creator A5071715029 @default.
W2885209546 creator A5081684164 @default.
W2885209546 date "2018-11-01" @default.
W2885209546 modified "2023-09-24" @default.
W2885209546 title "Upgrading of vacuum residue with chemical looping partial oxidation over Ce doped Fe2O3" @default.
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W2885209546 doi "https://doi.org/10.1016/j.energy.2018.08.038" @default.
W2885209546 hasPublicationYear "2018" @default.
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