Counter-current chromatography for lignin monomer-monomer and monomer-oligomer separations from reductive catalytic fractionation oil

Reductive catalytic fractionation (RCF) is a lignin-first biorefining technique that produces a polysaccharide-rich pulp and a lignin oil that is rich in aromatic monomers from aryl-ether bond cleavage and carbon-carbon linked aromatic oligomers. Separations of the lignin-derived monomers, both from...

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Published in:Green chemistry : an international journal and green chemistry resource : GC 2024-05, Vol.26 (1), p.59-5913
Main Authors: Choi, Hoon, Alherech, Manar, Jang, Jun Hee, Woodworth, Sean P, Ramirez, Kelsey J, Karp, Eric M, Beckham, Gregg T
Format: Article
Language:English
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09 BIOMASS FUELS
Aromatic compounds
aryl-ether bond cleavage
BIOMASS FUELS,INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Carbon
CCC solvent
Chromatography
Feed composition
Fractionation
Hardwoods
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Lignin
lignin oil separations
lignin-first biorefining
Monomers
Oil
Oils & fats
Oligomers
Optimization
Polysaccharides
reductive catalytic fractionation
Separation
Softwoods
Solutes
Solvents
Stover
Substrates
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container_title Green chemistry : an international journal and green chemistry resource : GC
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Alherech, Manar
Jang, Jun Hee
Woodworth, Sean P
Ramirez, Kelsey J
Karp, Eric M
Beckham, Gregg T
description Reductive catalytic fractionation (RCF) is a lignin-first biorefining technique that produces a polysaccharide-rich pulp and a lignin oil that is rich in aromatic monomers from aryl-ether bond cleavage and carbon-carbon linked aromatic oligomers. Separations of the lignin-derived monomers, both from one another and from the oligomers, out of these lignin oils could potentially yield high value co-products. To that end, we demonstrate that counter-current chromatography (CCC) is an effective means for simultaneous lignin monomer-monomer and monomer-oligomer separations using oils from RCF reactions with hardwood, softwood, and herbaceous feedstocks. Partition coefficient measurements of aromatic monomers from RCF of poplar, pine, and corn stover were first used to inform CCC solvent selection. We subsequently demonstrated CCC separations of those lignin oils using the HEMWat −3 solvent system and refined the measured partition coefficients using solute retention times and the cell utilized partitioning model to account for matrix effects in the following optimization experiments. Furthermore, the carbon-carbon linked oligomers in the lignin oil substrates elute together and separately from the aromatic monomers in lignin oil, resulting in an oligomer-rich product stream. Case studies of optimization of poplar RCF-derived lignin oil separations exhibited non-polar monomer yields of 95-99% with purities of 72-96%. Additionally, the same separation using a propyl-rich lignin oil produced from a H 2 -free RCF process showed a nearly 46% increase in normalized productivity, exhibiting the importance of tuning feed composition to improve separation performance. Taken together, this work shows that CCC is a promising method for simultaneous lignin monomer-monomer and monomer-oligomer separations. Counter-current chromatography is an effective unit operation for simultaneous aromatic monomer-monomer and monomer-oligomer separations from oil derived from reductive catalytic fractionation of lignocellulosic biomass.
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Furthermore, the carbon-carbon linked oligomers in the lignin oil substrates elute together and separately from the aromatic monomers in lignin oil, resulting in an oligomer-rich product stream. Case studies of optimization of poplar RCF-derived lignin oil separations exhibited non-polar monomer yields of 95-99% with purities of 72-96%. Additionally, the same separation using a propyl-rich lignin oil produced from a H 2 -free RCF process showed a nearly 46% increase in normalized productivity, exhibiting the importance of tuning feed composition to improve separation performance. Taken together, this work shows that CCC is a promising method for simultaneous lignin monomer-monomer and monomer-oligomer separations. 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Furthermore, the carbon-carbon linked oligomers in the lignin oil substrates elute together and separately from the aromatic monomers in lignin oil, resulting in an oligomer-rich product stream. Case studies of optimization of poplar RCF-derived lignin oil separations exhibited non-polar monomer yields of 95-99% with purities of 72-96%. Additionally, the same separation using a propyl-rich lignin oil produced from a H 2 -free RCF process showed a nearly 46% increase in normalized productivity, exhibiting the importance of tuning feed composition to improve separation performance. Taken together, this work shows that CCC is a promising method for simultaneous lignin monomer-monomer and monomer-oligomer separations. 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Separations of the lignin-derived monomers, both from one another and from the oligomers, out of these lignin oils could potentially yield high value co-products. To that end, we demonstrate that counter-current chromatography (CCC) is an effective means for simultaneous lignin monomer-monomer and monomer-oligomer separations using oils from RCF reactions with hardwood, softwood, and herbaceous feedstocks. Partition coefficient measurements of aromatic monomers from RCF of poplar, pine, and corn stover were first used to inform CCC solvent selection. We subsequently demonstrated CCC separations of those lignin oils using the HEMWat −3 solvent system and refined the measured partition coefficients using solute retention times and the cell utilized partitioning model to account for matrix effects in the following optimization experiments. Furthermore, the carbon-carbon linked oligomers in the lignin oil substrates elute together and separately from the aromatic monomers in lignin oil, resulting in an oligomer-rich product stream. Case studies of optimization of poplar RCF-derived lignin oil separations exhibited non-polar monomer yields of 95-99% with purities of 72-96%. Additionally, the same separation using a propyl-rich lignin oil produced from a H 2 -free RCF process showed a nearly 46% increase in normalized productivity, exhibiting the importance of tuning feed composition to improve separation performance. Taken together, this work shows that CCC is a promising method for simultaneous lignin monomer-monomer and monomer-oligomer separations. 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source Royal Society of Chemistry:Jisc Collections:Royal Society of Chemistry Read and Publish 2022-2024 (reading list)
subjects 09 BIOMASS FUELS
Aromatic compounds
aryl-ether bond cleavage
BIOMASS FUELS,INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Carbon
CCC solvent
Chromatography
Feed composition
Fractionation
Hardwoods
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Lignin
lignin oil separations
lignin-first biorefining
Monomers
Oil
Oils & fats
Oligomers
Optimization
Polysaccharides
reductive catalytic fractionation
Separation
Softwoods
Solutes
Solvents
Stover
Substrates
title Counter-current chromatography for lignin monomer-monomer and monomer-oligomer separations from reductive catalytic fractionation oil
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