Hydrogenation of 5-hydroxymethylfurfural into 2,5-bis(hydroxymethyl)furan over mesoporous Cu–Al2O3 catalyst: From batch to continuous processing

[Display omitted] •Mesoporous Cu–Al2O3 (meso-CuA) is prepared by solvent-deficient precipitation.•Meso-CuA is superior to other Cu catalysts in the hydrogenation of HMF to BHMF.•Durability of meso-CuA is confirmed by continuous hydrogenation experiments.•Water impurity can have a considerable effect...

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Published in:Journal of industrial and engineering chemistry (Seoul, Korea) 2021, 102(0), , pp.186-194
Main Authors: Kim, Jinsung, Bathula, Hari Babu, Yun, Seokwon, Jo, Yeongin, Lee, Soohyeon, Baik, Joon Hyun, Suh, Young-Woong
Format: Article
Language:English
Subjects:
5-hydroxymethylfurfural
Continuous process
Copper
Hydrogenation
Solvent-deficient precipitation
화학공학
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container_title Journal of industrial and engineering chemistry (Seoul, Korea)
container_volume 102
creator Kim, Jinsung
Bathula, Hari Babu
Yun, Seokwon
Jo, Yeongin
Lee, Soohyeon
Baik, Joon Hyun
Suh, Young-Woong
description [Display omitted] •Mesoporous Cu–Al2O3 (meso-CuA) is prepared by solvent-deficient precipitation.•Meso-CuA is superior to other Cu catalysts in the hydrogenation of HMF to BHMF.•Durability of meso-CuA is confirmed by continuous hydrogenation experiments.•Water impurity can have a considerable effect on catalytic performance of meso-CuA.•A process scheme was proposed for BHMF production at a scale of 100 kg per day. Biomass-derived monomers have received growing attention from sustainable polymer industry. Particularly, diol compounds can be formed from furfural (FAL) and 5-hydroxymethylfurfural (HMF). Herein, the mesoporous Cu–Al2O3 catalyst (meso-CuA) prepared by solvent-deficient precipitation was evaluated to be efficient in selective hydrogenation of FAL and HMF to furfuryl alcohol to 2,5-bis(hydroxymethyl)furan (BHMF), respectively, at temperatures of lower than 100 °C and high H2 pressures. Owing to unique pore structure and small-sized copper nanoparticles entangled with alumina, meso-CuA turned out to be superior to other supported Cu catalysts in the hydrogenation of HMF to BHMF. Moreover, meso-CuA showed highly durable performance at the BHMF yield of higher than 90% at 100 °C, 50 bar H2, and weight hourly space velocity of 0.2 h−1 over time-on-stream of 100 h. The stability was also confirmed with the HMF feed containing 1 wt% of water that proved to have more considerable effect than other possible impurities. Centering around a catalytic reactor packed with meso-CuA, a process scheme from HMF feed to pure BHMF solid was developed at a production scale of 100 kg per day. The present results can contribute to designing commercial process of BHMF production from HMF and further, real biomass.
doi_str_mv 10.1016/j.jiec.2021.06.039
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Biomass-derived monomers have received growing attention from sustainable polymer industry. Particularly, diol compounds can be formed from furfural (FAL) and 5-hydroxymethylfurfural (HMF). Herein, the mesoporous Cu–Al2O3 catalyst (meso-CuA) prepared by solvent-deficient precipitation was evaluated to be efficient in selective hydrogenation of FAL and HMF to furfuryl alcohol to 2,5-bis(hydroxymethyl)furan (BHMF), respectively, at temperatures of lower than 100 °C and high H2 pressures. Owing to unique pore structure and small-sized copper nanoparticles entangled with alumina, meso-CuA turned out to be superior to other supported Cu catalysts in the hydrogenation of HMF to BHMF. Moreover, meso-CuA showed highly durable performance at the BHMF yield of higher than 90% at 100 °C, 50 bar H2, and weight hourly space velocity of 0.2 h−1 over time-on-stream of 100 h. 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The stability was also confirmed with the HMF feed containing 1 wt% of water that proved to have more considerable effect than other possible impurities. Centering around a catalytic reactor packed with meso-CuA, a process scheme from HMF feed to pure BHMF solid was developed at a production scale of 100 kg per day. 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Biomass-derived monomers have received growing attention from sustainable polymer industry. Particularly, diol compounds can be formed from furfural (FAL) and 5-hydroxymethylfurfural (HMF). Herein, the mesoporous Cu–Al2O3 catalyst (meso-CuA) prepared by solvent-deficient precipitation was evaluated to be efficient in selective hydrogenation of FAL and HMF to furfuryl alcohol to 2,5-bis(hydroxymethyl)furan (BHMF), respectively, at temperatures of lower than 100 °C and high H2 pressures. Owing to unique pore structure and small-sized copper nanoparticles entangled with alumina, meso-CuA turned out to be superior to other supported Cu catalysts in the hydrogenation of HMF to BHMF. Moreover, meso-CuA showed highly durable performance at the BHMF yield of higher than 90% at 100 °C, 50 bar H2, and weight hourly space velocity of 0.2 h−1 over time-on-stream of 100 h. The stability was also confirmed with the HMF feed containing 1 wt% of water that proved to have more considerable effect than other possible impurities. Centering around a catalytic reactor packed with meso-CuA, a process scheme from HMF feed to pure BHMF solid was developed at a production scale of 100 kg per day. The present results can contribute to designing commercial process of BHMF production from HMF and further, real biomass.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jiec.2021.06.039</doi><tpages>9</tpages></addata></record>
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ispartof Journal of Industrial and Engineering Chemistry, 2021, 102(0), , pp.186-194
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source ScienceDirect Freedom Collection
subjects 5-hydroxymethylfurfural
Continuous process
Copper
Hydrogenation
Solvent-deficient precipitation
화학공학
title Hydrogenation of 5-hydroxymethylfurfural into 2,5-bis(hydroxymethyl)furan over mesoporous Cu–Al2O3 catalyst: From batch to continuous processing
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