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    Effect of Particle Size and Coke Formation on n‐Octane Dehydrogenation

    New search for: Prucker, Tobias
    New search for: Lamberty, Aliena
    New search for: Thiessen, Johannes
    New search for: König, Matthias
    New search for: Jess, Andreas

    The effect of particle size as well as of coke formation on conversion of intermediate chain length paraffins (C6–C9) to the corresponding olefins was investigated on a promoted Pt catalyst with the model substance n‐octane. Increasing the particle size leads to pore diffusion limitations and thus to a reduction of the activity for paraffin conversion and of the octene selectivity caused by more pronounced formation of consecutive products (aromatics, octadienes). Both effects are adequately predicted by the developed kinetic model. The activity of dehydrogenation declines with the content of coke, but to a lesser extent than the rate of coke formation, which is beneficial regarding the catalyst lifetime. The initial activity is fully recovered by mild coke burn‐off (T < 470 °C).

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    Effect of Particle Size and Coke Formation on n‐Octane Dehydrogenation

    New search for: Prucker, Tobias
    New search for: Lamberty, Aliena
    New search for: Thiessen, Johannes
    New search for: König, Matthias
    New search for: Jess, Andreas

    The effect of particle size as well as of coke formation on conversion of intermediate chain length paraffins (C6–C9) to the corresponding olefins was investigated on a promoted Pt catalyst with the model substance n‐octane. Increasing the particle size leads to pore diffusion limitations and thus to a reduction of the activity for paraffin conversion and of the octene selectivity caused by more pronounced formation of consecutive products (aromatics, octadienes). Both effects are adequately predicted by the developed kinetic model. The activity of dehydrogenation declines with the content of coke, but to a lesser extent than the rate of coke formation, which is beneficial regarding the catalyst lifetime. The initial activity is fully recovered by mild coke burn‐off (T < 470 °C).

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Effect of Particle Size and Coke Formation on n‐Octane Dehydrogenation

    New search for: Prucker, Tobias
    New search for: Lamberty, Aliena
    New search for: Thiessen, Johannes
    New search for: König, Matthias
    New search for: Jess, Andreas

    The effect of particle size as well as of coke formation on conversion of intermediate chain length paraffins (C6–C9) to the corresponding olefins was investigated on a promoted Pt catalyst with the model substance n‐octane. Increasing the particle size leads to pore diffusion limitations and thus to a reduction of the activity for paraffin conversion and of the octene selectivity caused by more pronounced formation of consecutive products (aromatics, octadienes). Both effects are adequately predicted by the developed kinetic model. The activity of dehydrogenation declines with the content of coke, but to a lesser extent than the rate of coke formation, which is beneficial regarding the catalyst lifetime. The initial activity is fully recovered by mild coke burn‐off (T < 470 °C).

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    Title:

    Effect of Particle Size and Coke Formation on n‐Octane Dehydrogenation

    Contributors:

    Prucker, Tobias (author) / Lamberty, Aliena (author) / Thiessen, Johannes (author) / König, Matthias (author) / Jess, Andreas (author)

    Published in:

    Chemie Ingenieur Technik ; 94 ; 1711-1719

    Publication date:

    2022-11-01

    Size:

    9 pages

    ISSN:

    0009-286X , 1522-2640

    DOI:

    https://doi.org/10.1002/cite.202200054

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Catalyst deactivation , Internal diffusion limitation , Modeling , n‐Octane dehydrogenation

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