Kinetics of furfural aldol condensation with acetone

Valeriia Korolova; Oleg Kikhtyanin; Evgeniya Grechman; Vincenzo Russo; Johan Wärnå; Dmitry Yu Murzin; David Kubička

doi:10.1016/j.cattod.2023.114272

Kinetics of furfural aldol condensation with acetone

Valeriia Korolova, Oleg Kikhtyanin, Evgeniya Grechman, Vincenzo Russo, Johan Wärnå, Dmitry Yu Murzin^*, David Kubička

^*Corresponding author for this work

Industrial Chemistry and Reaction Engineering

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Abstract

Furfural condensation with acetone has been studied over hydrotalcite materials exploring the influence of temperature, furfural to acetone ratio and catalyst loading. Concentration profiles exhibiting limiting conversion values depending on the catalyst amounts along with thermodynamic calculations clearly demonstrating absence of any thermodynamic restrictions point out on catalyst deactivation, which is more pronounced at lower catalyst concentrations. Deactivation is more likely influencing the first step of aldol condensation, rather than subsequent dehydration. A kinetic model has been developed which included catalyst deactivation. Kinetic modelling confirmed an adequate description of the experimental data with the advanced model.

Original language	English
Article number	114272
Number of pages	13
Journal	Catalysis Today
Volume	423
DOIs	https://doi.org/10.1016/j.cattod.2023.114272
Publication status	Published - 1 Nov 2023
MoE publication type	A1 Journal article-refereed

Keywords

Acetone
Aldol condensation
Furfural
Kinetic modelling
Thermodynamics

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10.1016/j.cattod.2023.114272

1-s2.0-S0920586123002961-mainFinal published version, 5.18 MBLicence: CC BY

https://urn.fi/URN:NBN:fi-fe202401294603

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title = "Kinetics of furfural aldol condensation with acetone",

abstract = "Furfural condensation with acetone has been studied over hydrotalcite materials exploring the influence of temperature, furfural to acetone ratio and catalyst loading. Concentration profiles exhibiting limiting conversion values depending on the catalyst amounts along with thermodynamic calculations clearly demonstrating absence of any thermodynamic restrictions point out on catalyst deactivation, which is more pronounced at lower catalyst concentrations. Deactivation is more likely influencing the first step of aldol condensation, rather than subsequent dehydration. A kinetic model has been developed which included catalyst deactivation. Kinetic modelling confirmed an adequate description of the experimental data with the advanced model.",

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AU - Korolova, Valeriia

AU - Kikhtyanin, Oleg

AU - Grechman, Evgeniya

AU - Russo, Vincenzo

AU - Wärnå, Johan

AU - Murzin, Dmitry Yu

AU - Kubička, David

PY - 2023/11/1

Y1 - 2023/11/1

N2 - Furfural condensation with acetone has been studied over hydrotalcite materials exploring the influence of temperature, furfural to acetone ratio and catalyst loading. Concentration profiles exhibiting limiting conversion values depending on the catalyst amounts along with thermodynamic calculations clearly demonstrating absence of any thermodynamic restrictions point out on catalyst deactivation, which is more pronounced at lower catalyst concentrations. Deactivation is more likely influencing the first step of aldol condensation, rather than subsequent dehydration. A kinetic model has been developed which included catalyst deactivation. Kinetic modelling confirmed an adequate description of the experimental data with the advanced model.

AB - Furfural condensation with acetone has been studied over hydrotalcite materials exploring the influence of temperature, furfural to acetone ratio and catalyst loading. Concentration profiles exhibiting limiting conversion values depending on the catalyst amounts along with thermodynamic calculations clearly demonstrating absence of any thermodynamic restrictions point out on catalyst deactivation, which is more pronounced at lower catalyst concentrations. Deactivation is more likely influencing the first step of aldol condensation, rather than subsequent dehydration. A kinetic model has been developed which included catalyst deactivation. Kinetic modelling confirmed an adequate description of the experimental data with the advanced model.

KW - Acetone

KW - Aldol condensation

KW - Furfural

KW - Kinetic modelling

KW - Thermodynamics

KW - Furfural

KW - Thermodynamics

KW - Kinetic modelling

KW - Aldol condensation

KW - Acetone

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SN - 0920-5861

VL - 423

JO - Catalysis Today

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Kinetics of furfural aldol condensation with acetone

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