SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2617492743> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2617492743 endingPage "23426" @default.
W2617492743 startingPage "23416" @default.
W2617492743 abstract "This paper reports a thermodynamic comparison between the samarium and erbium oxide based solar thermochemical water splitting cycles. These cycles are a two-step process in which the metal oxide is first thermally reduced into the pure metal, and the produced metal can be used to split water to produce H2. The metal oxides can be reused for multiple cycles without consumption. The effect of water splitting temperature on various thermodynamic parameters which are essential to design the solar reactor system for the production of H2 via water splitting reaction using the samarium and erbium oxides is studied in detail. The total amount of solar energy needed for the thermal reduction of samarium and erbium oxides is estimated. The amount of heat energy released by the water splitting reactor is calculated. Also, the cycle and solar-to-fuel energy conversion efficiency for both cycles are determined by employing heat recuperation. Obtained results indicate that the efficiencies associated with these cycles are comparable to the previously studies thermochemical cycles. It is observed that higher water splitting temperature favors towards higher efficiencies. At constant thermal reduction temperature = 2280 K, by employing 50% heat recuperation, the solar-to-fuel energy conversion efficiency for the samarium cycle (30.98%) is observed to be higher than erbium cycle (28.19%)." @default.
W2617492743 created "2017-06-05" @default.
W2617492743 creator A5005044461 @default.
W2617492743 creator A5027288897 @default.
W2617492743 creator A5034418975 @default.
W2617492743 creator A5037399584 @default.
W2617492743 creator A5060871252 @default.
W2617492743 date "2017-09-01" @default.
W2617492743 modified "2023-10-16" @default.
W2617492743 title "A comparative thermodynamic analysis of samarium and erbium oxide based solar thermochemical water splitting cycles" @default.
W2617492743 cites W1882353326 @default.
W2617492743 cites W1968966965 @default.
W2617492743 cites W1969400631 @default.
W2617492743 cites W1970994871 @default.
W2617492743 cites W1973337990 @default.
W2617492743 cites W1975150935 @default.
W2617492743 cites W1981129618 @default.
W2617492743 cites W1981955849 @default.
W2617492743 cites W1982531949 @default.
W2617492743 cites W1984020769 @default.
W2617492743 cites W1985447716 @default.
W2617492743 cites W1988111909 @default.
W2617492743 cites W1992940231 @default.
W2617492743 cites W2002207349 @default.
W2617492743 cites W2008624509 @default.
W2617492743 cites W2011159863 @default.
W2617492743 cites W2012067012 @default.
W2617492743 cites W2020833070 @default.
W2617492743 cites W2021906059 @default.
W2617492743 cites W2022991008 @default.
W2617492743 cites W2025493685 @default.
W2617492743 cites W2027213355 @default.
W2617492743 cites W2028967322 @default.
W2617492743 cites W2032952241 @default.
W2617492743 cites W2035009208 @default.
W2617492743 cites W2046904597 @default.
W2617492743 cites W2047308962 @default.
W2617492743 cites W2055244232 @default.
W2617492743 cites W2057622936 @default.
W2617492743 cites W2062872823 @default.
W2617492743 cites W2066254200 @default.
W2617492743 cites W2074406055 @default.
W2617492743 cites W2077464063 @default.
W2617492743 cites W2077503281 @default.
W2617492743 cites W2087414512 @default.
W2617492743 cites W2094660064 @default.
W2617492743 cites W2138498405 @default.
W2617492743 cites W2148762698 @default.
W2617492743 cites W2152495150 @default.
W2617492743 cites W2154278598 @default.
W2617492743 cites W2161282162 @default.
W2617492743 cites W2191900414 @default.
W2617492743 cites W2239569711 @default.
W2617492743 cites W2276973228 @default.
W2617492743 cites W2317013844 @default.
W2617492743 cites W2317674460 @default.
W2617492743 cites W2328475823 @default.
W2617492743 cites W2344878300 @default.
W2617492743 cites W2412605726 @default.
W2617492743 cites W2412994880 @default.
W2617492743 cites W2478657955 @default.
W2617492743 cites W2487793643 @default.
W2617492743 cites W2569554240 @default.
W2617492743 cites W2596724596 @default.
W2617492743 doi "https://doi.org/10.1016/j.ijhydene.2017.03.172" @default.
W2617492743 hasPublicationYear "2017" @default.
W2617492743 type Work @default.
W2617492743 sameAs 2617492743 @default.
W2617492743 citedByCount "53" @default.
W2617492743 countsByYear W26174927432017 @default.
W2617492743 countsByYear W26174927432018 @default.
W2617492743 countsByYear W26174927432019 @default.
W2617492743 countsByYear W26174927432020 @default.
W2617492743 countsByYear W26174927432021 @default.
W2617492743 countsByYear W26174927432022 @default.
W2617492743 countsByYear W26174927432023 @default.
W2617492743 crossrefType "journal-article" @default.
W2617492743 hasAuthorship W2617492743A5005044461 @default.
W2617492743 hasAuthorship W2617492743A5027288897 @default.
W2617492743 hasAuthorship W2617492743A5034418975 @default.
W2617492743 hasAuthorship W2617492743A5037399584 @default.
W2617492743 hasAuthorship W2617492743A5060871252 @default.
W2617492743 hasConcept C121332964 @default.
W2617492743 hasConcept C161790260 @default.
W2617492743 hasConcept C175503448 @default.
W2617492743 hasConcept C178790620 @default.
W2617492743 hasConcept C179104552 @default.
W2617492743 hasConcept C185592680 @default.
W2617492743 hasConcept C18903297 @default.
W2617492743 hasConcept C191897082 @default.
W2617492743 hasConcept C192562407 @default.
W2617492743 hasConcept C202189072 @default.
W2617492743 hasConcept C206991015 @default.
W2617492743 hasConcept C2779851234 @default.
W2617492743 hasConcept C35590869 @default.
W2617492743 hasConcept C49040817 @default.
W2617492743 hasConcept C512968161 @default.
W2617492743 hasConcept C513967374 @default.