Concentration-Dependent Solar Thermochemical CO2/H2O Splitting Performance by Vanadia-Ceria Multiphase Metal Oxide Systems
Date
2020
Authors
Riaz, Asim
Ali, Muhammad Umair
Enge, Gabriel
Tsuzuki, Takuya
Lowe, Adrian
Lipiński, Wojciech
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American Association for the Advancement of Science
Abstract
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 CO2 and H2O splitting coupled to methane
partial oxidation reactions. The oxidation of prepared oxygen carriers is performed by separate and sequential CO2 and
H2O 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 CeO2 and pure V2O5 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 CeO2
while decreasing the extent of methane cracking. The addition of 25% V to CeO2 results in an optimum mixture of CeO2
and CeVO4 for enhanced CO2 and H2O splitting. At higher V concentrations, cyclic carbide formation and oxidation
result in a syngas yield higher than that for pure CeO2.
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Creative Commons Attribution License (CC BY 4.0)
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