Kinetics and Thermochemistry of C4–C6 Olefin Cracking on H‑ZSM‑5

C4–C6 olefin β-scission rate constants were inferred from experimental studies at 773–813 K and <15% conversion by considering every C4–C6 olefin isomer and all available β-scission modes: 2° to 2° (C), 1° to 3° and 3° to 1° (E), 1° to 2° and 2° to 1° (D), and 1° to 1° (F). Group contribution met...

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Published inACS catalysis Vol. 4; no. 7; pp. 2319 - 2327
Main Authors Chen, Cha-Jung, Rangarajan, Srinivas, Hill, Ian M, Bhan, Aditya
Format Journal Article
LanguageEnglish
Published American Chemical Society 03.07.2014
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Abstract C4–C6 olefin β-scission rate constants were inferred from experimental studies at 773–813 K and <15% conversion by considering every C4–C6 olefin isomer and all available β-scission modes: 2° to 2° (C), 1° to 3° and 3° to 1° (E), 1° to 2° and 2° to 1° (D), and 1° to 1° (F). Group contribution methods were implemented to assess adsorption enthalpies and entropies of C4–C6 olefin isomers on H-ZSM-5 via the development of group correction terms for surface alkoxides; a linear dependence of enthalpy (or entropy) of formation difference between a surface alkoxide and a gas-phase alkane on carbon number was considered. Tertiary alkoxides have the smallest adsorption constants among surface adsorbates, and the resulting low coverage of highly substituted alkoxides restricts their contribution to alkene cracking pathways. Intrinsic β-scission rate constants (k E:k C:k D:k F ratio of 1094:21:8:1 at 783 K) and activation energies (E inE < E inC < E inD < E inF) from experimentally observed effluent compositions of C4–C6 olefin cracking consistent with computational studies were derived after rigorously accounting for adsorption constants and surface coverages of each C4–C6 olefin isomer. These results demonstrate that shape selectivity constraints prevent equilibration of surface alkoxides on surfaces under reaction conditions relevant for alkene cracking and present a quantitative description of C–C bond cracking reactions of olefins catalyzed by solid acids.
AbstractList C4–C6 olefin β-scission rate constants were inferred from experimental studies at 773–813 K and <15% conversion by considering every C4–C6 olefin isomer and all available β-scission modes: 2° to 2° (C), 1° to 3° and 3° to 1° (E), 1° to 2° and 2° to 1° (D), and 1° to 1° (F). Group contribution methods were implemented to assess adsorption enthalpies and entropies of C4–C6 olefin isomers on H-ZSM-5 via the development of group correction terms for surface alkoxides; a linear dependence of enthalpy (or entropy) of formation difference between a surface alkoxide and a gas-phase alkane on carbon number was considered. Tertiary alkoxides have the smallest adsorption constants among surface adsorbates, and the resulting low coverage of highly substituted alkoxides restricts their contribution to alkene cracking pathways. Intrinsic β-scission rate constants (k E:k C:k D:k F ratio of 1094:21:8:1 at 783 K) and activation energies (E inE < E inC < E inD < E inF) from experimentally observed effluent compositions of C4–C6 olefin cracking consistent with computational studies were derived after rigorously accounting for adsorption constants and surface coverages of each C4–C6 olefin isomer. These results demonstrate that shape selectivity constraints prevent equilibration of surface alkoxides on surfaces under reaction conditions relevant for alkene cracking and present a quantitative description of C–C bond cracking reactions of olefins catalyzed by solid acids.
Author Rangarajan, Srinivas
Hill, Ian M
Bhan, Aditya
Chen, Cha-Jung
AuthorAffiliation University of Minnesota-Twin Cities
Department of Chemical Engineering and Materials Science
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  surname: Bhan
  fullname: Bhan, Aditya
  email: abhan@umn.edu
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Keywords olefin cracking
β-scission
group additivity
group correction
ZSM-5
alkoxides
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Snippet C4–C6 olefin β-scission rate constants were inferred from experimental studies at 773–813 K and <15% conversion by considering every C4–C6 olefin isomer and...
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Title Kinetics and Thermochemistry of C4–C6 Olefin Cracking on H‑ZSM‑5
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