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Concentration-Dependent Solar Thermochemical CO_(2)/H_(2)O Splitting Performance by Vanadia-Ceria Multiphase Metal Oxide Systems 被引量:2
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作者 Asim Riaz Muhammad Umair Ali +3 位作者 T.Gabriel Enge Takuya Tsuzuki Adrian Lowe wojciech lipinski 《Research》 EI CAS 2020年第1期522-533,共12页
The effects of V and Ce concentrations(each varying in the 0-100%range)in vanadia-ceria multiphase systems are investigated for synthesis gas production via thermochemical redox cycles of CO_(2) and H_(2)O splitting c... The effects of V and Ce concentrations(each varying in the 0-100%range)in vanadia-ceria multiphase systems are investigated for synthesis gas production via thermochemical redox cycles of CO_(2) and H_(2)O splitting coupled to methane partial oxidation reactions.The oxidation of prepared oxygen carriers is performed by separate and sequential CO_(2) and H_(2)O splitting reactions.Structural and chemical analyses of the mixed-metal oxides revealed important information about the Ce and V interactions affecting their crystal phases and redox characteristics.Pure CeO_(2) and pure V_(2)O_(5) are found to offer the lowest and highest oxygen exchange capacities and syngas production performance,respectively.The mixed-oxide systems provide a balanced performance:their oxygen exchange capacity is up to 5 times higher than that of pure CeO_(2) while decreasing the extent of methane cracking.The addition of 25%V to CeO_(2) results in an optimum mixture of CeO_(2) and CeVO4 for enhanced CO_(2) and H_(2)O splitting.At higher V concentrations,cyclic carbide formation and oxidation result in a syngas yield higher than that for pure CeO_(2). 展开更多
关键词 PURE methane SPLITTING
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