FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2936996955> ?p ?o ?g. }

• W2936996955 endingPage "150" @default.
• W2936996955 startingPage "142" @default.
• W2936996955 abstract "In this study, the impact of a catalyst's surface acidity on supercritical water gasification (SCWG) of glucose is investigated. Four different catalysts including Ni, Ru0·2Ni, Ru0·5Ni and NiLa were prepared on an Al2O3 support via an incipient impregnation method. NH3-TPD and pyridine-FTIR results of the fresh catalysts showed that NiLa was the least acidic amongst the four investigated catalysts. Although the BET surface area for all four catalysts were similar, the NiLa and Ru0·5Ni catalysts were found to significantly reduce carbon deposition during SCWG of glucose, attributed to their lower acidic nature. Production of H2 was also increased by 1.52 and 1.21 × using the NiLa and Ru0·5Ni compared to Ni. The carbon deposition was characterized by TG-DTA, TPO, XRD and Raman spectroscopy, showing that the higher the acidic nature of the catalyst, the higher the tendency for carbon deposition. Using a lower acidic catalyst for SCWG helped minimize the catalyst's deactivation, while improving the catalyst lifetime This study shows that the acidic nature of the catalyst is an important consideration towards a better understanding of the SCWG mechanism." @default.
• W2936996955 created "2019-04-25" @default.
• W2936996955 creator A5030890581 @default.
• W2936996955 creator A5035524728 @default.
• W2936996955 creator A5087820073 @default.
• W2936996955 date "2019-05-01" @default.
• W2936996955 modified "2023-10-17" @default.
• W2936996955 title "Effect of surface acidity of Al2O3 supported metal catalysts on catalytic activity and carbon deposition during SCWG of glucose" @default.
• W2936996955 cites W175396175 @default.
• W2936996955 cites W1975793973 @default.
• W2936996955 cites W1983709443 @default.
• W2936996955 cites W1985949975 @default.
• W2936996955 cites W1987133563 @default.
• W2936996955 cites W1989657875 @default.
• W2936996955 cites W1992466254 @default.
• W2936996955 cites W1994498048 @default.
• W2936996955 cites W1997920793 @default.
• W2936996955 cites W2008182798 @default.
• W2936996955 cites W2010753433 @default.
• W2936996955 cites W2014713257 @default.
• W2936996955 cites W2017613909 @default.
• W2936996955 cites W2020724797 @default.
• W2936996955 cites W2044345044 @default.
• W2936996955 cites W2044754738 @default.
• W2936996955 cites W2050079002 @default.
• W2936996955 cites W2055147001 @default.
• W2936996955 cites W2056726013 @default.
• W2936996955 cites W2058743437 @default.
• W2936996955 cites W2077158658 @default.
• W2936996955 cites W2079080011 @default.
• W2936996955 cites W2079510206 @default.
• W2936996955 cites W2082588605 @default.
• W2936996955 cites W2082859610 @default.
• W2936996955 cites W2083308521 @default.
• W2936996955 cites W2086757378 @default.
• W2936996955 cites W2091698016 @default.
• W2936996955 cites W2092655418 @default.
• W2936996955 cites W2095895448 @default.
• W2936996955 cites W2100538709 @default.
• W2936996955 cites W2137939934 @default.
• W2936996955 cites W2141614445 @default.
• W2936996955 cites W2329612136 @default.
• W2936996955 cites W2346828789 @default.
• W2936996955 cites W2531266439 @default.
• W2936996955 cites W2533530253 @default.
• W2936996955 cites W2571445070 @default.
• W2936996955 cites W2580744641 @default.
• W2936996955 cites W2582916998 @default.
• W2936996955 cites W2588961434 @default.
• W2936996955 cites W2619512419 @default.
• W2936996955 cites W2625871859 @default.
• W2936996955 cites W2650915363 @default.
• W2936996955 cites W2736415559 @default.
• W2936996955 cites W2762507052 @default.
• W2936996955 cites W2764159442 @default.
• W2936996955 cites W2781636034 @default.
• W2936996955 cites W2781814031 @default.
• W2936996955 cites W2803137678 @default.
• W2936996955 cites W2943636939 @default.
• W2936996955 cites W3022354342 @default.
• W2936996955 doi "https://doi.org/10.1016/j.biombioe.2019.04.005" @default.
• W2936996955 hasPublicationYear "2019" @default.
• W2936996955 type Work @default.
• W2936996955 sameAs 2936996955 @default.
• W2936996955 citedByCount "24" @default.
• W2936996955 countsByYear W29369969552020 @default.
• W2936996955 countsByYear W29369969552021 @default.
• W2936996955 countsByYear W29369969552022 @default.
• W2936996955 countsByYear W29369969552023 @default.
• W2936996955 crossrefType "journal-article" @default.
• W2936996955 hasAuthorship W2936996955A5030890581 @default.
• W2936996955 hasAuthorship W2936996955A5035524728 @default.
• W2936996955 hasAuthorship W2936996955A5087820073 @default.
• W2936996955 hasConcept C104779481 @default.
• W2936996955 hasConcept C127413603 @default.
• W2936996955 hasConcept C13965031 @default.
• W2936996955 hasConcept C140205800 @default.
• W2936996955 hasConcept C151730666 @default.
• W2936996955 hasConcept C159985019 @default.
• W2936996955 hasConcept C160892712 @default.
• W2936996955 hasConcept C161790260 @default.
• W2936996955 hasConcept C178790620 @default.
• W2936996955 hasConcept C179104552 @default.
• W2936996955 hasConcept C185592680 @default.
• W2936996955 hasConcept C192562407 @default.
• W2936996955 hasConcept C2816523 @default.
• W2936996955 hasConcept C42360764 @default.
• W2936996955 hasConcept C544153396 @default.
• W2936996955 hasConcept C64297162 @default.
• W2936996955 hasConcept C86803240 @default.
• W2936996955 hasConceptScore W2936996955C104779481 @default.
• W2936996955 hasConceptScore W2936996955C127413603 @default.
• W2936996955 hasConceptScore W2936996955C13965031 @default.
• W2936996955 hasConceptScore W2936996955C140205800 @default.
• W2936996955 hasConceptScore W2936996955C151730666 @default.
• W2936996955 hasConceptScore W2936996955C159985019 @default.
• W2936996955 hasConceptScore W2936996955C160892712 @default.
• W2936996955 hasConceptScore W2936996955C161790260 @default.

• next