Microwave barrel reactor use in trimethylolpropane oleate synthesis by Candida antarctica lipase in a biphasic non-solvent process

A novel microwave barrel reactor (MBR) was constructed and used in lipase catalyzed biolubricant synthesis. The MBR is thought as a versatile process tool for biotransformation and green chemistry that overcomes current size limitations in microwave reactors. A lipase mediated biotransformation in t...

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Published in:Green Chemistry
Main Authors: Happe, Manuel, Grand, Pascal, Farquet, Sébastien, Aeby, Sandrine, Héritier, Jean-Claude, Corthay, François, Mabillard, Eric, Marti, Roger, Vanoli, Ennio, Grogg, Alain-François, Nussbaum, Samuel, Roduit, Alain, Tièche, François, Salem, Sam, Constantin, Carole, Schmitt, Esther, Zahno, Silvan, Ellert, Christoph, Habib, Ahmed, Wyss, Julien, Fischer, Fabian
Format: Text
Language:English
Published: 2021
Subjects:
Antarc*
Antarctica
Online Access:https://doi.org/10.1039/c2gc35479a
https://arodes.hes-so.ch/record/8997/files/Happe_2012_microwave_barrel_reactor_use_trimethylolpropane_oleate_synthesis_candida_antartica_lipase_biphasic_non-solvent_process.pdf
http://arodes.hes-so.ch/record/8997
id fthessoch:oai:hesso.tind.io:8997
record_format openpolar
spelling fthessoch:oai:hesso.tind.io:8997 2023-10-09T21:46:32+02:00 Microwave barrel reactor use in trimethylolpropane oleate synthesis by Candida antarctica lipase in a biphasic non-solvent process Happe, Manuel Grand, Pascal Farquet, Sébastien Aeby, Sandrine Héritier, Jean-Claude Corthay, François Mabillard, Eric Marti, Roger Vanoli, Ennio Grogg, Alain-François Nussbaum, Samuel Roduit, Alain Tièche, François Salem, Sam Constantin, Carole Schmitt, Esther Zahno, Silvan Ellert, Christoph Habib, Ahmed Wyss, Julien Fischer, Fabian 2021-11-19T14:38:53Z https://doi.org/10.1039/c2gc35479a https://arodes.hes-so.ch/record/8997/files/Happe_2012_microwave_barrel_reactor_use_trimethylolpropane_oleate_synthesis_candida_antartica_lipase_biphasic_non-solvent_process.pdf http://arodes.hes-so.ch/record/8997 eng eng doi:10.1039/c2gc35479a https://arodes.hes-so.ch/record/8997/files/Happe_2012_microwave_barrel_reactor_use_trimethylolpropane_oleate_synthesis_candida_antartica_lipase_biphasic_non-solvent_process.pdf http://arodes.hes-so.ch/record/8997 http://arodes.hes-so.ch/record/8997 Text 2021 fthessoch https://doi.org/10.1039/c2gc35479a 2023-09-10T23:56:04Z A novel microwave barrel reactor (MBR) was constructed and used in lipase catalyzed biolubricant synthesis. The MBR is thought as a versatile process tool for biotransformation and green chemistry that overcomes current size limitations in microwave reactors. A lipase mediated biotransformation in the MBR was compared to a state of the art jacketed reactor with external heat exchanger. Oleic acid and trimethylolpropane converted quantitatively (96%) into biolubricants using microwave induction. The heat dissipation in the MBR was analyzed by thermal imaging and inside thermometry. Conversion rates, rate constants and pseudo reaction orders were in line with conventional processing and no microwave effect was detected. The MBR is a versatile new reactor for non solvent, minimal and common solvent processing in the microwave field. While the subject of investigations was biolubricant synthesis in the MBR, the technology described is of wider potential interest in the field of biomass processing and sustainable chemical manufacture. Text Antarc* Antarctica Hes-so: ArODES Open Archive (University of Applied Sciences and Arts Western Switzerland) Green Chemistry 14 8 2337
institution Open Polar
collection Hes-so: ArODES Open Archive (University of Applied Sciences and Arts Western Switzerland)
op_collection_id fthessoch
language English
description A novel microwave barrel reactor (MBR) was constructed and used in lipase catalyzed biolubricant synthesis. The MBR is thought as a versatile process tool for biotransformation and green chemistry that overcomes current size limitations in microwave reactors. A lipase mediated biotransformation in the MBR was compared to a state of the art jacketed reactor with external heat exchanger. Oleic acid and trimethylolpropane converted quantitatively (96%) into biolubricants using microwave induction. The heat dissipation in the MBR was analyzed by thermal imaging and inside thermometry. Conversion rates, rate constants and pseudo reaction orders were in line with conventional processing and no microwave effect was detected. The MBR is a versatile new reactor for non solvent, minimal and common solvent processing in the microwave field. While the subject of investigations was biolubricant synthesis in the MBR, the technology described is of wider potential interest in the field of biomass processing and sustainable chemical manufacture.
format Text
author Happe, Manuel
Grand, Pascal
Farquet, Sébastien
Aeby, Sandrine
Héritier, Jean-Claude
Corthay, François
Mabillard, Eric
Marti, Roger
Vanoli, Ennio
Grogg, Alain-François
Nussbaum, Samuel
Roduit, Alain
Tièche, François
Salem, Sam
Constantin, Carole
Schmitt, Esther
Zahno, Silvan
Ellert, Christoph
Habib, Ahmed
Wyss, Julien
Fischer, Fabian
spellingShingle Happe, Manuel
Grand, Pascal
Farquet, Sébastien
Aeby, Sandrine
Héritier, Jean-Claude
Corthay, François
Mabillard, Eric
Marti, Roger
Vanoli, Ennio
Grogg, Alain-François
Nussbaum, Samuel
Roduit, Alain
Tièche, François
Salem, Sam
Constantin, Carole
Schmitt, Esther
Zahno, Silvan
Ellert, Christoph
Habib, Ahmed
Wyss, Julien
Fischer, Fabian
Microwave barrel reactor use in trimethylolpropane oleate synthesis by Candida antarctica lipase in a biphasic non-solvent process
author_facet Happe, Manuel
Grand, Pascal
Farquet, Sébastien
Aeby, Sandrine
Héritier, Jean-Claude
Corthay, François
Mabillard, Eric
Marti, Roger
Vanoli, Ennio
Grogg, Alain-François
Nussbaum, Samuel
Roduit, Alain
Tièche, François
Salem, Sam
Constantin, Carole
Schmitt, Esther
Zahno, Silvan
Ellert, Christoph
Habib, Ahmed
Wyss, Julien
Fischer, Fabian
author_sort Happe, Manuel
title Microwave barrel reactor use in trimethylolpropane oleate synthesis by Candida antarctica lipase in a biphasic non-solvent process
title_short Microwave barrel reactor use in trimethylolpropane oleate synthesis by Candida antarctica lipase in a biphasic non-solvent process
title_full Microwave barrel reactor use in trimethylolpropane oleate synthesis by Candida antarctica lipase in a biphasic non-solvent process
title_fullStr Microwave barrel reactor use in trimethylolpropane oleate synthesis by Candida antarctica lipase in a biphasic non-solvent process
title_full_unstemmed Microwave barrel reactor use in trimethylolpropane oleate synthesis by Candida antarctica lipase in a biphasic non-solvent process
title_sort microwave barrel reactor use in trimethylolpropane oleate synthesis by candida antarctica lipase in a biphasic non-solvent process
publishDate 2021
url https://doi.org/10.1039/c2gc35479a
https://arodes.hes-so.ch/record/8997/files/Happe_2012_microwave_barrel_reactor_use_trimethylolpropane_oleate_synthesis_candida_antartica_lipase_biphasic_non-solvent_process.pdf
http://arodes.hes-so.ch/record/8997
genre Antarc*
Antarctica
genre_facet Antarc*
Antarctica
op_source http://arodes.hes-so.ch/record/8997
op_relation doi:10.1039/c2gc35479a
https://arodes.hes-so.ch/record/8997/files/Happe_2012_microwave_barrel_reactor_use_trimethylolpropane_oleate_synthesis_candida_antartica_lipase_biphasic_non-solvent_process.pdf
http://arodes.hes-so.ch/record/8997
op_doi https://doi.org/10.1039/c2gc35479a
container_title Green Chemistry
container_volume 14
container_issue 8
container_start_page 2337
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