Show simple item record

AuthorBhosale, Rahul
AuthorKumar, Anand
AuthorAlMomani, Fares
AuthorGhosh, Ujjal
AuthorSaad Anis, Mohammad
AuthorKakosimos, Konstantinos
AuthorShende, Rajesh
AuthorRosen, Marc A.
Available date2021-09-07T06:16:23Z
Publication Date2016
Publication NameEnergies
ResourceScopus
ISSN19961073
URIhttp://dx.doi.org/10.3390/en9050316
URIhttp://hdl.handle.net/10576/22839
AbstractThe computational thermodynamic analysis of a samarium oxide-based two-step solar thermochemical water splitting cycle is reported. The analysis is performed using HSC chemistry software and databases. The first (solar-based) step drives the thermal reduction of Sm2O3 into Sm and O2. The second (non-solar) step corresponds to the production of H2 via a water splitting reaction and the oxidation of Sm to Sm2O3. The equilibrium thermodynamic compositions related to the thermal reduction and water splitting steps are determined. The effect of oxygen partial pressure in the inert flushing gas on the thermal reduction temperature (TH) is examined. An analysis based on the second law of thermodynamics is performed to determine the cycle efficiency (ηcycle) and solar-to-fuel energy conversion efficiency (ηsolar−to−fuel) attainable with and without heat recuperation. The results indicate that ηcycle and ηsolar−to−fuel both increase with decreasing TH, due to the reduction in oxygen partial pressure in the inert flushing gas. Furthermore, the recuperation of heat for the operation of the cycle significantly improves the solar reactor efficiency. For instance, in the case where TH = 2280 K, ηcycle = 24.4% and ηsolar−to−fuel = 29.5% (without heat recuperation), while ηcycle = 31.3% and ηsolar−to−fuel = 37.8% (with 40% heat recuperation). View Full-Text
Languageen
PublisherMDPI AG
SubjectComputational analysis
Hydrogen
Samarium oxide
Solar thermochemical
Thermodynamics
Water splitting
TitleSolar hydrogen production via a samarium oxide-based thermochemical water splitting cycle
TypeArticle
Issue Number5
Volume Number9
dc.accessType Open Access


Files in this item

Thumbnail

This item appears in the following Collection(s)

Show simple item record