FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2029844594> ?p ?o ?g. }

• W2029844594 endingPage "152" @default.
• W2029844594 startingPage "137" @default.
• W2029844594 abstract "The current IUPAC classification of gas–solid adsorption isotherms has two deficiencies: it is incomplete and it gives the incorrect impression that adsorption isotherms are always monotonically increasing functions of pressure. However, there are many isotherms that are not monotonic and show maxima. The reason for this deficiency is that the IUPAC classification is based conceptually on ideas about the `absolute' adsorption rather than on the Gibbs adsorption. It is shown here that supercritical gases show adsorption isotherms which are fundamentally different from those in the IUPAC classification. There are experimental data for hydrocarbons, inert gases, nitrogen, carbon oxide, carbon dioxide, nitrogen oxides, and others on microporous and macroporous adsorbents for supercritical temperatures showing nonmonotonic isotherms with maxima. It also is shown that the Ono–Kondo lattice model is able to predict all known types of adsorption behavior. By changing two energetic parameters (energies for adsorbate–adsorbate and adsorbate–adsorbent interactions), one can obtain smooth or stepped multilayer adsorption isotherms for macroporous adsorbents. It also is possible to describe adsorption on microporous adsorbents by imposing the appropriate boundary conditions. The Ono–Kondo model also predicts steps in isotherms similar to those observed in high resolution measurements for nitrogen and oxigen on zeolites. The monolayer version of the Ono–Kondo theory gives all known types of monolayer adsorption isotherms." @default.
• W2029844594 created "2016-06-24" @default.
• W2029844594 creator A5068493526 @default.
• W2029844594 creator A5073250890 @default.
• W2029844594 date "1998-07-01" @default.
• W2029844594 modified "2023-10-16" @default.
• W2029844594 title "Classification of Gibbs adsorption isotherms" @default.
• W2029844594 cites W109108658 @default.
• W2029844594 cites W135769783 @default.
• W2029844594 cites W1507206212 @default.
• W2029844594 cites W1980704616 @default.
• W2029844594 cites W2006355129 @default.
• W2029844594 cites W2007224978 @default.
• W2029844594 cites W2011254969 @default.
• W2029844594 cites W2032022110 @default.
• W2029844594 cites W2036289299 @default.
• W2029844594 cites W2047404361 @default.
• W2029844594 cites W2053011272 @default.
• W2029844594 cites W2074269071 @default.
• W2029844594 cites W2079443255 @default.
• W2029844594 cites W2079446885 @default.
• W2029844594 cites W2082665582 @default.
• W2029844594 cites W2083384677 @default.
• W2029844594 cites W2095363821 @default.
• W2029844594 cites W2168122447 @default.
• W2029844594 doi "https://doi.org/10.1016/s0001-8686(98)00044-x" @default.
• W2029844594 hasPublicationYear "1998" @default.
• W2029844594 type Work @default.
• W2029844594 sameAs 2029844594 @default.
• W2029844594 citedByCount "356" @default.
• W2029844594 countsByYear W20298445942012 @default.
• W2029844594 countsByYear W20298445942013 @default.
• W2029844594 countsByYear W20298445942014 @default.
• W2029844594 countsByYear W20298445942015 @default.
• W2029844594 countsByYear W20298445942016 @default.
• W2029844594 countsByYear W20298445942017 @default.
• W2029844594 countsByYear W20298445942018 @default.
• W2029844594 countsByYear W20298445942019 @default.
• W2029844594 countsByYear W20298445942020 @default.
• W2029844594 countsByYear W20298445942021 @default.
• W2029844594 countsByYear W20298445942022 @default.
• W2029844594 countsByYear W20298445942023 @default.
• W2029844594 crossrefType "journal-article" @default.
• W2029844594 hasAuthorship W2029844594A5068493526 @default.
• W2029844594 hasAuthorship W2029844594A5073250890 @default.
• W2029844594 hasBestOaLocation W20298445941 @default.
• W2029844594 hasConcept C118419359 @default.
• W2029844594 hasConcept C121332964 @default.
• W2029844594 hasConcept C146477669 @default.
• W2029844594 hasConcept C147789679 @default.
• W2029844594 hasConcept C150394285 @default.
• W2029844594 hasConcept C178790620 @default.
• W2029844594 hasConcept C185592680 @default.
• W2029844594 hasConcept C537208039 @default.
• W2029844594 hasConcept C55493867 @default.
• W2029844594 hasConcept C7070889 @default.
• W2029844594 hasConcept C86381522 @default.
• W2029844594 hasConcept C97355855 @default.
• W2029844594 hasConceptScore W2029844594C118419359 @default.
• W2029844594 hasConceptScore W2029844594C121332964 @default.
• W2029844594 hasConceptScore W2029844594C146477669 @default.
• W2029844594 hasConceptScore W2029844594C147789679 @default.
• W2029844594 hasConceptScore W2029844594C150394285 @default.
• W2029844594 hasConceptScore W2029844594C178790620 @default.
• W2029844594 hasConceptScore W2029844594C185592680 @default.
• W2029844594 hasConceptScore W2029844594C537208039 @default.
• W2029844594 hasConceptScore W2029844594C55493867 @default.
• W2029844594 hasConceptScore W2029844594C7070889 @default.
• W2029844594 hasConceptScore W2029844594C86381522 @default.
• W2029844594 hasConceptScore W2029844594C97355855 @default.
• W2029844594 hasLocation W20298445941 @default.
• W2029844594 hasOpenAccess W2029844594 @default.
• W2029844594 hasPrimaryLocation W20298445941 @default.
• W2029844594 hasRelatedWork W1974457739 @default.
• W2029844594 hasRelatedWork W2037348326 @default.
• W2029844594 hasRelatedWork W2050317300 @default.
• W2029844594 hasRelatedWork W2051355712 @default.
• W2029844594 hasRelatedWork W2064537195 @default.
• W2029844594 hasRelatedWork W2072594297 @default.
• W2029844594 hasRelatedWork W2318741150 @default.
• W2029844594 hasRelatedWork W2368923085 @default.
• W2029844594 hasRelatedWork W2376711334 @default.
• W2029844594 hasRelatedWork W3196163622 @default.
• W2029844594 hasVolume "76-77" @default.
• W2029844594 isParatext "false" @default.
• W2029844594 isRetracted "false" @default.
• W2029844594 magId "2029844594" @default.
• W2029844594 workType "article" @default.