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AuthorBhosale, Rahul R.
Available date2020-03-18T08:10:07Z
Publication Date2018
Publication NameInternational Journal of Hydrogen Energy
ResourceScopus
ISSN3603199
URIhttp://dx.doi.org/10.1016/j.ijhydene.2018.06.074
URIhttp://hdl.handle.net/10576/13306
AbstractIn this paper, the thermodynamic efficiency analysis of ZnO-based solar-driven thermochemical H2O splitting cycle is performed and compared with the SnO2-based H2O splitting cycle. The HSC Chemistry 7.1 software is used for this analysis and effects of thermal reduction (TH) and water splitting temperature (TL) on various thermodynamic parameters associated with the ZnO-based H2O splitting cycle are explored. The thermodynamic equilibrium compositions allied with the ZnO reduction and re-oxidation of Zn via H2O splitting reaction are identified by varying the TH, TL, and PO2 in the inert gas. The efficiency analysis indicates that the highest cycle and solar-to-fuel energy conversion efficiency equal to 41.1 and 49.5% can be achieved at TH = 1340 K and TL = 650 K. Both efficiencies can be increased further by more than 10% via employing heat recuperation (50%). Based on the cycle and solar-to-fuel energy conversion efficiency values, the ZnO-based H2O splitting cycle seems to be more attractive than SnO2-based H2O splitting cycle. ? 2018 Hydrogen Energy Publications LLC
SponsorThis publication was made possible by the NPRP grant ( NPRP8-370-2-154 ) from the Qatar National Research Fund (a member of Qatar Foundation). The statements made herein are solely the responsibility of author(s).
Languageen
PublisherElsevier Ltd
SubjectEfficiency analysis
H2
H2O splitting
Solar energy
Thermodynamics
ZnO
TitleThermodynamic efficiency analysis of zinc oxide based solar driven thermochemical H2O splitting cycle: Effect of partial pressure of O2, thermal reduction and H2O splitting temperatures
TypeArticle
Pagination14915 - 14924
Issue Number32
Volume Number43
dc.accessType Abstract Only


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