FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2329128921> ?p ?o ?g. }

• W2329128921 endingPage "4307" @default.
• W2329128921 startingPage "4301" @default.
• W2329128921 abstract "Phenol, a substance difficult to be gasified, is often an intermediate product from biomass gasification in supercritical water. In this study, 1 wt % phenol is gasified in supercritical water with different oxidation coefficients (0 ≤ n ≤ 0.8) at 430−550 °C, 25 MPa in a continuous tubular-flow reaction plant with or without 0.1 wt % Na2CO3. The results show that TOC (total organic carbon) removal rate and COD (chemical oxygen demand) removal rate of reactor effluent will rise with the increase of oxidation coefficient and reaction temperature. When n rises from 0.3 to 0.8 at 500 °C, hydrogen yield and hydrogen molar fraction will first increase and then decrease. They reach their respective maximum values of 0.245 mol/mol and 46.2% at n = 0.6 with the residence time of 2.96 min. There is an appropriate oxidation coefficient for obtaining the highest hydrogen yield for phenol supercritical water partial oxidative gasification (SWPO). Na2CO3 can serve as a catalyst or an additive for phenol SWPO. When 0.1 wt % Na2CO3 is added, hydrogen yield is near 0.477 mol/mol at n = 0.6, 500 °C with the residence time of 2.96 min. Furthermore, the potential conversion pathways for phenol SWPO with Na2CO3 catalyst are also proposed." @default.
• W2329128921 created "2016-06-24" @default.
• W2329128921 creator A5007328944 @default.
• W2329128921 creator A5036024810 @default.
• W2329128921 creator A5047254880 @default.
• W2329128921 creator A5056779663 @default.
• W2329128921 creator A5085838581 @default.
• W2329128921 creator A5088806373 @default.
• W2329128921 date "2011-03-15" @default.
• W2329128921 modified "2023-10-02" @default.
• W2329128921 title "Catalyzed Partial Oxidative Gasification of Phenol in Supercritical Water" @default.
• W2329128921 cites W1587212379 @default.
• W2329128921 cites W1965478773 @default.
• W2329128921 cites W1971045324 @default.
• W2329128921 cites W1974121715 @default.
• W2329128921 cites W1976259634 @default.
• W2329128921 cites W1976563475 @default.
• W2329128921 cites W1978094764 @default.
• W2329128921 cites W1980670700 @default.
• W2329128921 cites W1981593736 @default.
• W2329128921 cites W1984596515 @default.
• W2329128921 cites W1985769005 @default.
• W2329128921 cites W1988734471 @default.
• W2329128921 cites W1991865210 @default.
• W2329128921 cites W1995292507 @default.
• W2329128921 cites W1999797521 @default.
• W2329128921 cites W2012073963 @default.
• W2329128921 cites W2019387361 @default.
• W2329128921 cites W2022834823 @default.
• W2329128921 cites W2029864727 @default.
• W2329128921 cites W2033675235 @default.
• W2329128921 cites W2035358348 @default.
• W2329128921 cites W2038969625 @default.
• W2329128921 cites W2044728411 @default.
• W2329128921 cites W2045799991 @default.
• W2329128921 cites W2046805507 @default.
• W2329128921 cites W2052589576 @default.
• W2329128921 cites W2053645112 @default.
• W2329128921 cites W2054869992 @default.
• W2329128921 cites W2055293149 @default.
• W2329128921 cites W2059566783 @default.
• W2329128921 cites W2062210257 @default.
• W2329128921 cites W2065867238 @default.
• W2329128921 cites W2067337652 @default.
• W2329128921 cites W2068320113 @default.
• W2329128921 cites W2072089141 @default.
• W2329128921 cites W2073048331 @default.
• W2329128921 cites W2079510206 @default.
• W2329128921 cites W2081117344 @default.
• W2329128921 cites W2083534589 @default.
• W2329128921 cites W2088968690 @default.
• W2329128921 cites W2089716919 @default.
• W2329128921 cites W2091766520 @default.
• W2329128921 cites W2092904940 @default.
• W2329128921 cites W2111673695 @default.
• W2329128921 cites W2137732711 @default.
• W2329128921 cites W2140502135 @default.
• W2329128921 cites W3022354342 @default.
• W2329128921 doi "https://doi.org/10.1021/ie1016255" @default.
• W2329128921 hasPublicationYear "2011" @default.
• W2329128921 type Work @default.
• W2329128921 sameAs 2329128921 @default.
• W2329128921 citedByCount "32" @default.
• W2329128921 countsByYear W23291289212012 @default.
• W2329128921 countsByYear W23291289212013 @default.
• W2329128921 countsByYear W23291289212014 @default.
• W2329128921 countsByYear W23291289212015 @default.
• W2329128921 countsByYear W23291289212016 @default.
• W2329128921 countsByYear W23291289212017 @default.
• W2329128921 countsByYear W23291289212018 @default.
• W2329128921 countsByYear W23291289212019 @default.
• W2329128921 countsByYear W23291289212020 @default.
• W2329128921 countsByYear W23291289212021 @default.
• W2329128921 countsByYear W23291289212022 @default.
• W2329128921 countsByYear W23291289212023 @default.
• W2329128921 crossrefType "journal-article" @default.
• W2329128921 hasAuthorship W2329128921A5007328944 @default.
• W2329128921 hasAuthorship W2329128921A5036024810 @default.
• W2329128921 hasAuthorship W2329128921A5047254880 @default.
• W2329128921 hasAuthorship W2329128921A5056779663 @default.
• W2329128921 hasAuthorship W2329128921A5085838581 @default.
• W2329128921 hasAuthorship W2329128921A5088806373 @default.
• W2329128921 hasConcept C118419359 @default.
• W2329128921 hasConcept C134121241 @default.
• W2329128921 hasConcept C13965031 @default.
• W2329128921 hasConcept C161790260 @default.
• W2329128921 hasConcept C16893164 @default.
• W2329128921 hasConcept C178790620 @default.
• W2329128921 hasConcept C179104552 @default.
• W2329128921 hasConcept C185592680 @default.
• W2329128921 hasConcept C191897082 @default.
• W2329128921 hasConcept C192562407 @default.
• W2329128921 hasConcept C2777702071 @default.
• W2329128921 hasConcept C512968161 @default.
• W2329128921 hasConceptScore W2329128921C118419359 @default.
• W2329128921 hasConceptScore W2329128921C134121241 @default.
• W2329128921 hasConceptScore W2329128921C13965031 @default.
• W2329128921 hasConceptScore W2329128921C161790260 @default.

• next