Which Variables Matter for Process Design and Scale-Up? A Study of Sugar Cane Straw Pretreatment Using Low-Cost and Easily Synthesizable Ionic Liquids

Felipe Augusto Ferrari; Jorge Fernando Brandão Pereira; Geert Jan Witkamp; Marcus Bruno Soares Forte

doi:10.1021/acssuschemeng.9b01385

Which Variables Matter for Process Design and Scale-Up? A Study of Sugar Cane Straw Pretreatment Using Low-Cost and Easily Synthesizable Ionic Liquids

Felipe Augusto Ferrari, Jorge Fernando Brandão Pereira, Geert Jan Witkamp, Marcus Bruno Soares Forte

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Ionic liquids (ILs) have great potential as solvents and catalysts for pretreatment of lignocellulosic biomass. However, process scale-up necessitates that IL-based pretreatment methods be optimized in terms of cost and sustainability. In this study, low-cost and easily synthesizable ethanolammonium-based ILs were prepared and used in the pretreatment of sugar cane straw (SW). The effects of ILs, IL mixtures, pretreatment temperature, water content, solids loading, ultrasonication, and agitation speed on residual solids enzymatic digestibility and delignification were systematically assessed, and the process was scaled up from a 50 mL static flask to a 1 L impelled reactor. IL mixtures improved enzymatic digestibility at higher solids loading and water addition in the reaction medium under mild temperature conditions (90 °C). Enzymatic hydrolysis of residual solids after bench-scale pretreatment of SW for 3 h at 15% (w/w) solids loading and 20% (w/w) water content in the liquid phase resulted in 98% cellulose digestibility under nonoptimized conditions. This study provides a practical review of IL-based pretreatment methods, discusses the selection of variables for process design and scale-up, and presents empirical results.

Original language	English (US)
Pages (from-to)	12779-12788
Number of pages	10
Journal	ACS Sustainable Chemistry & Engineering
Volume	7
Issue number	15
DOIs	https://doi.org/10.1021/acssuschemeng.9b01385
State	Published - Jul 8 2019

Bibliographical note

KAUST Repository Item: Exported on 2020-10-01
Acknowledgements: We acknowledge the Brazilian Bioethanol Science and Technology Laboratory (Brazil) for the material provided,CNPq (Brazil), and BE-Basic Foundation for financial support. M.B.S.F. acknowledges FAPESP (2015/50612-8 and 2017/ 24520-4), and J.F.B.P. also acknowledges FAPESP (2014/ 16424-7) for financial support. Prof. Guilherme Maximo and M.Sc. Ariel Hijo from EXTRAE Lab/UNICAMP are acknowledged for experimental collaboration. Athyla Cyrino is acknowledged for graphical support. This work is carried out in the Ph.D. Program in Bioenergy supported by the Brazilian Federal agencies CNPq (National Council for Scientific and Technological Development) and CAPES (Brazilian Federal Agency for Support and Evaluation of Graduate Education). This work was carried out as part of a Dual Degree Ph.D.
Project under the agreement between UNICAMP and TUDelf

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title = "Which Variables Matter for Process Design and Scale-Up? A Study of Sugar Cane Straw Pretreatment Using Low-Cost and Easily Synthesizable Ionic Liquids",

abstract = "Ionic liquids (ILs) have great potential as solvents and catalysts for pretreatment of lignocellulosic biomass. However, process scale-up necessitates that IL-based pretreatment methods be optimized in terms of cost and sustainability. In this study, low-cost and easily synthesizable ethanolammonium-based ILs were prepared and used in the pretreatment of sugar cane straw (SW). The effects of ILs, IL mixtures, pretreatment temperature, water content, solids loading, ultrasonication, and agitation speed on residual solids enzymatic digestibility and delignification were systematically assessed, and the process was scaled up from a 50 mL static flask to a 1 L impelled reactor. IL mixtures improved enzymatic digestibility at higher solids loading and water addition in the reaction medium under mild temperature conditions (90 °C). Enzymatic hydrolysis of residual solids after bench-scale pretreatment of SW for 3 h at 15% (w/w) solids loading and 20% (w/w) water content in the liquid phase resulted in 98% cellulose digestibility under nonoptimized conditions. This study provides a practical review of IL-based pretreatment methods, discusses the selection of variables for process design and scale-up, and presents empirical results.",

author = "Ferrari, {Felipe Augusto} and Pereira, {Jorge Fernando Brand{\~a}o} and Witkamp, {Geert Jan} and Forte, {Marcus Bruno Soares}",

note = "KAUST Repository Item: Exported on 2020-10-01 Acknowledgements: We acknowledge the Brazilian Bioethanol Science and Technology Laboratory (Brazil) for the material provided,CNPq (Brazil), and BE-Basic Foundation for financial support. M.B.S.F. acknowledges FAPESP (2015/50612-8 and 2017/ 24520-4), and J.F.B.P. also acknowledges FAPESP (2014/ 16424-7) for financial support. Prof. Guilherme Maximo and M.Sc. Ariel Hijo from EXTRAE Lab/UNICAMP are acknowledged for experimental collaboration. Athyla Cyrino is acknowledged for graphical support. This work is carried out in the Ph.D. Program in Bioenergy supported by the Brazilian Federal agencies CNPq (National Council for Scientific and Technological Development) and CAPES (Brazilian Federal Agency for Support and Evaluation of Graduate Education). This work was carried out as part of a Dual Degree Ph.D. Project under the agreement between UNICAMP and TUDelf",

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Which Variables Matter for Process Design and Scale-Up? A Study of Sugar Cane Straw Pretreatment Using Low-Cost and Easily Synthesizable Ionic Liquids. / Ferrari, Felipe Augusto; Pereira, Jorge Fernando Brandão; Witkamp, Geert Jan et al.
In: ACS Sustainable Chemistry & Engineering, Vol. 7, No. 15, 08.07.2019, p. 12779-12788.

Research output: Contribution to journal › Article › peer-review

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AU - Witkamp, Geert Jan

AU - Forte, Marcus Bruno Soares

N1 - KAUST Repository Item: Exported on 2020-10-01 Acknowledgements: We acknowledge the Brazilian Bioethanol Science and Technology Laboratory (Brazil) for the material provided,CNPq (Brazil), and BE-Basic Foundation for financial support. M.B.S.F. acknowledges FAPESP (2015/50612-8 and 2017/ 24520-4), and J.F.B.P. also acknowledges FAPESP (2014/ 16424-7) for financial support. Prof. Guilherme Maximo and M.Sc. Ariel Hijo from EXTRAE Lab/UNICAMP are acknowledged for experimental collaboration. Athyla Cyrino is acknowledged for graphical support. This work is carried out in the Ph.D. Program in Bioenergy supported by the Brazilian Federal agencies CNPq (National Council for Scientific and Technological Development) and CAPES (Brazilian Federal Agency for Support and Evaluation of Graduate Education). This work was carried out as part of a Dual Degree Ph.D. Project under the agreement between UNICAMP and TUDelf

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N2 - Ionic liquids (ILs) have great potential as solvents and catalysts for pretreatment of lignocellulosic biomass. However, process scale-up necessitates that IL-based pretreatment methods be optimized in terms of cost and sustainability. In this study, low-cost and easily synthesizable ethanolammonium-based ILs were prepared and used in the pretreatment of sugar cane straw (SW). The effects of ILs, IL mixtures, pretreatment temperature, water content, solids loading, ultrasonication, and agitation speed on residual solids enzymatic digestibility and delignification were systematically assessed, and the process was scaled up from a 50 mL static flask to a 1 L impelled reactor. IL mixtures improved enzymatic digestibility at higher solids loading and water addition in the reaction medium under mild temperature conditions (90 °C). Enzymatic hydrolysis of residual solids after bench-scale pretreatment of SW for 3 h at 15% (w/w) solids loading and 20% (w/w) water content in the liquid phase resulted in 98% cellulose digestibility under nonoptimized conditions. This study provides a practical review of IL-based pretreatment methods, discusses the selection of variables for process design and scale-up, and presents empirical results.

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ER -

Which Variables Matter for Process Design and Scale-Up? A Study of Sugar Cane Straw Pretreatment Using Low-Cost and Easily Synthesizable Ionic Liquids

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