Ethylene glycol oxidation over supported catalyst in tubular reactor

Ethylene glycol oxidation over supported catalyst in tubular reactor

[Display omitted] ► We developed a macrokinetics for oxidation of ethylene glycol into glyoxal. ► We proposed a 2D heterogeneous mathematical model of the process. ► Due to catalyst activity change it is possible to manage the process selectivity. Macrokinetics for chemical transformation of ethylen...

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Veröffentlicht in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2011-08, Vol.172 (1), p.399-409
Hauptverfasser: Salaev, M.A., Krejker, A.A., Magaev, O.V., Malkov, V.S., Knyazev, A.S., Borisova, E.S., Khanaev, V.M., Vodyankina, O.V., Kurina, L.N.
Format: Artikel
Sprache:eng
Schlagworte:
Catalysts
Chemical engineering
Ethylene glycol
Ethylene glycol oxidation
Glyoxal
Mathematical models
Modeling and simulation
oxidation
Pilots
Reactors
Selectivity
Supported catalyst
Transformations
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Zusammenfassung:[Display omitted] ► We developed a macrokinetics for oxidation of ethylene glycol into glyoxal. ► We proposed a 2D heterogeneous mathematical model of the process. ► Due to catalyst activity change it is possible to manage the process selectivity. Macrokinetics for chemical transformation of ethylene glycol into glyoxal (including side-reactions) as well as 2D heterogeneous mathematical model were suggested. Numerical results obtained using this model were compared with the experimental data obtained at lab-scale and pilot reactor, and showed good correlation. It was shown that due to catalyst activity change it is possible to manage the process selectivity with respect to glyoxal in diffusion mode. The optimal value of catalyst activity providing the highest process selectivity can be found.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2011.05.079