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An elementary-step kinetic model for ethyl acetate synthesis by direct addition of acetic acid to ethylene on a silicotungstic acid catalyst

Bram Van Wettere, Joris Thybaut (UGent) , Erhin de Werd, Saleh Aghakhani (UGent) and Jeroen Lauwaert (UGent)
(2023) CHEMICAL ENGINEERING JOURNAL. 460.
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Abstract
An elementary-step kinetic model for ethyl acetate synthesis by direct addition of acetic acid to ethylene over a silica supported silicotungstic acid catalyst is developed. A reaction network comprising 5 reactions, i.e. 3 direct additions, an esterification and a condensation, between 6 major components (ethylene, acetic acid, water, ethyl acetate, ethanol and diethyl ether) is accounted for. The reactions are described by means of Langmuir-Hinshelwood-Hougen-Watson and Eley-Rideal type rate expressions, including the adsorptions of all compo-nents, except diethyl ether, on the active sites of the catalyst. The model can quantitatively capture the effects of space time, temperature, pressure and feed composition, on conversions and also qualitatively reproduces the observed selectivities. However, it is necessary to include two physicochemical phenomena, i.e. i) silicotungstic acid solvation by water for the adequate description of the pressure effect on kinetics and ii) the proton-ethanol cluster formation to improve the fit between the experimental and model predicted values. Estimates for acti-vation energies, adsorption enthalpies, solvation and cluster formation enthalpies and entropies are obtained through regression. At a temperature of 442 K, pressure equal to 1.2 MPa, an ethylene:acetic acid:water:dini-trogen feed molar ratio of 78.2:6.5:5.3:10.0 and relative space time amounting to 0.5, ethyl acetate is for 84 % produced by direct addition of acetic acid to ethylene, while the esterification between acetic acid and ethanol contributes for 16 %. Hence, besides reproducing conversions and selectivities, the kinetic model provides in-sights on fundamental level, which are essential for the optimization and innovation of production plants uti-lizing direct addition technology.
Keywords
Industrial and Manufacturing Engineering, General Chemical Engineering, Environmental Chemistry, General Chemistry, Direct addition, Effects of space time and operating conditions, Ethyl, acetate, Langmuir-Hinshelwood-Hougen-Watson and, Eley-Rideal kinetics, Simulation of conversions and selectivities, VAPOR-LIQUID-EQUILIBRIUM, GAS-PHASE, GLYCEROL DEHYDRATION, HETEROPOLY, COMPOUNDS, ETHANOL, MECHANISM, ESTERIFICATION, HYDRATION, ACROLEIN, BEHAVIOR

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Citation

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MLA
Van Wettere, Bram, et al. “An Elementary-Step Kinetic Model for Ethyl Acetate Synthesis by Direct Addition of Acetic Acid to Ethylene on a Silicotungstic Acid Catalyst.” CHEMICAL ENGINEERING JOURNAL, vol. 460, 2023, doi:10.1016/j.cej.2023.141759.
APA
Van Wettere, B., Thybaut, J., de Werd, E., Aghakhani, S., & Lauwaert, J. (2023). An elementary-step kinetic model for ethyl acetate synthesis by direct addition of acetic acid to ethylene on a silicotungstic acid catalyst. CHEMICAL ENGINEERING JOURNAL, 460. https://doi.org/10.1016/j.cej.2023.141759
Chicago author-date
Van Wettere, Bram, Joris Thybaut, Erhin de Werd, Saleh Aghakhani, and Jeroen Lauwaert. 2023. “An Elementary-Step Kinetic Model for Ethyl Acetate Synthesis by Direct Addition of Acetic Acid to Ethylene on a Silicotungstic Acid Catalyst.” CHEMICAL ENGINEERING JOURNAL 460. https://doi.org/10.1016/j.cej.2023.141759.
Chicago author-date (all authors)
Van Wettere, Bram, Joris Thybaut, Erhin de Werd, Saleh Aghakhani, and Jeroen Lauwaert. 2023. “An Elementary-Step Kinetic Model for Ethyl Acetate Synthesis by Direct Addition of Acetic Acid to Ethylene on a Silicotungstic Acid Catalyst.” CHEMICAL ENGINEERING JOURNAL 460. doi:10.1016/j.cej.2023.141759.
Vancouver
1.
Van Wettere B, Thybaut J, de Werd E, Aghakhani S, Lauwaert J. An elementary-step kinetic model for ethyl acetate synthesis by direct addition of acetic acid to ethylene on a silicotungstic acid catalyst. CHEMICAL ENGINEERING JOURNAL. 2023;460.
IEEE
[1]
B. Van Wettere, J. Thybaut, E. de Werd, S. Aghakhani, and J. Lauwaert, “An elementary-step kinetic model for ethyl acetate synthesis by direct addition of acetic acid to ethylene on a silicotungstic acid catalyst,” CHEMICAL ENGINEERING JOURNAL, vol. 460, 2023.
@article{01H92MWDEWKWNH15TZ59HBSJJ3,
  abstract     = {{An elementary-step kinetic model for ethyl acetate synthesis by direct addition of acetic acid to ethylene over a silica supported silicotungstic acid catalyst is developed. A reaction network comprising 5 reactions, i.e. 3 direct additions, an esterification and a condensation, between 6 major components (ethylene, acetic acid, water, ethyl acetate, ethanol and diethyl ether) is accounted for. The reactions are described by means of Langmuir-Hinshelwood-Hougen-Watson and Eley-Rideal type rate expressions, including the adsorptions of all compo-nents, except diethyl ether, on the active sites of the catalyst. The model can quantitatively capture the effects of space time, temperature, pressure and feed composition, on conversions and also qualitatively reproduces the observed selectivities. However, it is necessary to include two physicochemical phenomena, i.e. i) silicotungstic acid solvation by water for the adequate description of the pressure effect on kinetics and ii) the proton-ethanol cluster formation to improve the fit between the experimental and model predicted values. Estimates for acti-vation energies, adsorption enthalpies, solvation and cluster formation enthalpies and entropies are obtained through regression. At a temperature of 442 K, pressure equal to 1.2 MPa, an ethylene:acetic acid:water:dini-trogen feed molar ratio of 78.2:6.5:5.3:10.0 and relative space time amounting to 0.5, ethyl acetate is for 84 % produced by direct addition of acetic acid to ethylene, while the esterification between acetic acid and ethanol contributes for 16 %. Hence, besides reproducing conversions and selectivities, the kinetic model provides in-sights on fundamental level, which are essential for the optimization and innovation of production plants uti-lizing direct addition technology.}},
  articleno    = {{141759}},
  author       = {{Van Wettere, Bram and Thybaut, Joris and de Werd, Erhin and Aghakhani, Saleh and Lauwaert, Jeroen}},
  issn         = {{1385-8947}},
  journal      = {{CHEMICAL ENGINEERING JOURNAL}},
  keywords     = {{Industrial and Manufacturing Engineering,General Chemical Engineering,Environmental Chemistry,General Chemistry,Direct addition,Effects of space time and operating conditions,Ethyl,acetate,Langmuir-Hinshelwood-Hougen-Watson and,Eley-Rideal kinetics,Simulation of conversions and selectivities,VAPOR-LIQUID-EQUILIBRIUM,GAS-PHASE,GLYCEROL DEHYDRATION,HETEROPOLY,COMPOUNDS,ETHANOL,MECHANISM,ESTERIFICATION,HYDRATION,ACROLEIN,BEHAVIOR}},
  language     = {{eng}},
  pages        = {{17}},
  title        = {{An elementary-step kinetic model for ethyl acetate synthesis by direct addition of acetic acid to ethylene on a silicotungstic acid catalyst}},
  url          = {{http://doi.org/10.1016/j.cej.2023.141759}},
  volume       = {{460}},
  year         = {{2023}},
}
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