A decade of ceria based solar thermochemical H2O/CO2 splitting cycle
View/ Open
Publisher version (Check access options)
Check access options
Date
2019Author
Bhosale, Rahul R.Takalkar, Gorakshnath
Sutar, Parag
Kumar, Anand
AlMomani, Fares
Khraisheh, Majeda
...show more authors ...show less authors
Metadata
Show full item recordAbstract
Since 2006, ceria is used as a redox reactive material for production of H2, CO, and syngas via a two-step solar driven thermochemical H2O/CO2 splitting cycle. Different forms of phase pure ceria were studied over a wide range of temperatures and oxygen partial pressures. To increase the redox reactivity and long-term stability, the effects of incorporation of different dopants in to the ceria fluorite structure (in varying proportions) were studied in detail. A variety of solar reactors, loaded with ceria based ceramics, were designed and developed to investigate the performance of these materials towards thermal reduction and H2O/CO2 splitting reactions. The thermodynamics and reaction kinetics of ceria based solar thermochemical H2O/CO2 splitting cycles were also explored heavily. This paper presents a detailed chronological insight into the development of ceria-based oxides as reactive materials for solar fuel production via thermochemical redox H2O/CO2 splitting cycles.
Collections
- Chemical Engineering [1175 items ]