Cyclic production of syngas and hydrogen through methane-reforming and water-splitting by using ceria–zirconia solid solutions in a solar volumetric receiver–reactor

•CexZr1−xO2 for stepwise production of syngas and H2 by a redox cycle is examined.•CexZr1−xO2 solid solutions are reduced more easily than pure CeO2.•Fairly stable behavior of solid solutions is shown for 20 repeated cycles. For cyclic production of syngas and hydrogen by methane reforming (reductio...

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Published in:Solar energy 2014-11, Vol.109, p.70-81
Main Authors: Jang, Jong Tak, Yoon, Ki June, Bae, Jong Wook, Han, Gui Young
Format: Article
Language:English
Subjects:
Applied sciences
Ceria–zirconia
Chemistry
Electrochemistry
Energy
Exact sciences and technology
Foam device
General and physical chemistry
Hydrogen
Methane
Methane reforming-water splitting
Natural energy
Photoelectrochemistry. Electrochemiluminescence
Solar collectors
Solar energy
Solar radiation
Solar simulator
Solar thermal conversion
Solid solutions
Syngas
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container_title Solar energy
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creator Jang, Jong Tak
Yoon, Ki June
Bae, Jong Wook
Han, Gui Young
description •CexZr1−xO2 for stepwise production of syngas and H2 by a redox cycle is examined.•CexZr1−xO2 solid solutions are reduced more easily than pure CeO2.•Fairly stable behavior of solid solutions is shown for 20 repeated cycles. For cyclic production of syngas and hydrogen by methane reforming (reduction) and water splitting (re-oxidation) under simulated solar-light irradiation, foam devices coated with ceria–zirconia (CexZr1−xO2, where x=0.3, 0.5 and 0.8) solid solutions and CeO2 were used. Reduction characteristics of the foam devices were investigated in the temperature range from 873 to 1173K. The solid solutions were found to be reduced more easily than pure CeO2 especially at low temperatures. The gas yields by the solid solutions increased with increasing Ce content. Depending on temperature and composition of the solid solutions, the optimum operating times for methane reforming, during which carbon deposition was negligible, were determined. Among the solid solutions, Ce0.8Zr0.2O2 showed the best stability and gas yields during repeated operations of the redox cycle at 1173K, and it was confirmed from the XRD analysis that sintering of Ce0.8Zr0.2O2 was the least. To find the effect of metallic foams on the gas productivity, a Ni foam coated with Ce0.8Zr0.2O2 was investigated, and it rendered significantly higher gas yields than the SiC foam device; however, its long-term stability was assessed to be inferior to the latter.
doi_str_mv 10.1016/j.solener.2014.08.024
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For cyclic production of syngas and hydrogen by methane reforming (reduction) and water splitting (re-oxidation) under simulated solar-light irradiation, foam devices coated with ceria–zirconia (CexZr1−xO2, where x=0.3, 0.5 and 0.8) solid solutions and CeO2 were used. Reduction characteristics of the foam devices were investigated in the temperature range from 873 to 1173K. The solid solutions were found to be reduced more easily than pure CeO2 especially at low temperatures. The gas yields by the solid solutions increased with increasing Ce content. Depending on temperature and composition of the solid solutions, the optimum operating times for methane reforming, during which carbon deposition was negligible, were determined. Among the solid solutions, Ce0.8Zr0.2O2 showed the best stability and gas yields during repeated operations of the redox cycle at 1173K, and it was confirmed from the XRD analysis that sintering of Ce0.8Zr0.2O2 was the least. 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1471-1257
language eng
recordid cdi_proquest_journals_1606411449
source Elsevier
subjects Applied sciences
Ceria–zirconia
Chemistry
Electrochemistry
Energy
Exact sciences and technology
Foam device
General and physical chemistry
Hydrogen
Methane
Methane reforming-water splitting
Natural energy
Photoelectrochemistry. Electrochemiluminescence
Solar collectors
Solar energy
Solar radiation
Solar simulator
Solar thermal conversion
Solid solutions
Syngas
title Cyclic production of syngas and hydrogen through methane-reforming and water-splitting by using ceria–zirconia solid solutions in a solar volumetric receiver–reactor
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