Pretreatment for biorefineries: a review of common methods for efficient utilisation of lignocellulosic materials

doi:10.1186/s13068-019-1634-1

Review

. 2019 Dec 23:12:294.

doi: 10.1186/s13068-019-1634-1. eCollection 2019.

Pretreatment for biorefineries: a review of common methods for efficient utilisation of lignocellulosic materials

Mats Galbe¹, Ola Wallberg¹

Affiliations

PMID: 31890022
PMCID: PMC6927169
DOI: 10.1186/s13068-019-1634-1

Review

Pretreatment for biorefineries: a review of common methods for efficient utilisation of lignocellulosic materials

Mats Galbe et al. Biotechnol Biofuels. 2019.

. 2019 Dec 23:12:294.

doi: 10.1186/s13068-019-1634-1. eCollection 2019.

Authors

Mats Galbe¹, Ola Wallberg¹

Affiliation

¹ Department of Chemical Engineering, Lund University, P.O. Box 124, 221 00 Lund, Sweden.

PMID: 31890022
PMCID: PMC6927169
DOI: 10.1186/s13068-019-1634-1

Abstract

The implementation of biorefineries based on lignocellulosic materials as an alternative to fossil-based refineries calls for efficient methods for fractionation and recovery of the products. The focus for the biorefinery concept for utilisation of biomass has shifted, from design of more or less energy-driven biorefineries, to much more versatile facilities where chemicals and energy carriers can be produced. The sugar-based biorefinery platform requires pretreatment of lignocellulosic materials, which can be very recalcitrant, to improve further processing through enzymatic hydrolysis, and for other downstream unit operations. This review summarises the development in the field of pretreatment (and to some extent, of fractionation) of various lignocellulosic materials. The number of publications indicates that biomass pretreatment plays a very important role for the biorefinery concept to be realised in full scale. The traditional pretreatment methods, for example, steam pretreatment (explosion), organosolv and hydrothermal treatment are covered in the review. In addition, the rapidly increasing interest for chemical treatment employing ionic liquids and deep-eutectic solvents are discussed and reviewed. It can be concluded that the huge variation of lignocellulosic materials makes it difficult to find a general process design for a biorefinery. Therefore, it is difficult to define "the best pretreatment" method. In the end, this depends on the proposed application, and any recommendation of a suitable pretreatment method must be based on a thorough techno-economic evaluation.

Keywords: Biomass; Biorefinery; Fractionation; Lignocellulosic materials; Pretreatment; Review.

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Conflict of interest statement

Competing interestsThe authors declare that they have no competing interests.

Figures

**Fig. 1**
A schematic representation of a biorefinery for production of energy carriers and chemicals

**Fig. 2**
The effect of pH on pretreatment of lignocellulosic materials: a low pH; b high pH

See this image and copyright information in PMC

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[1] IEA. Tracking clean energy progress 2017. Report. International Energy Agency; 2017 June 6, 2017.

[2] IEA. Tracking clean energy progress 2017. Report. International Energy Agency; 2017 June 6, 2017.

[3] Ladanai S, Vinterbäck J. Global potential of sustainable biomass for energy. Uppsala Sweden: Swedish University for Agricultural Sciences Dept. of Energy and Technology; 2009. Report No.: ISSN 1654-9406.

[4] Ladanai S, Vinterbäck J. Global potential of sustainable biomass for energy. Uppsala Sweden: Swedish University for Agricultural Sciences Dept. of Energy and Technology; 2009. Report No.: ISSN 1654-9406.

[5] Menon Vishnu, Rao Mala. Microorganisms in Sustainable Agriculture and Biotechnology. Dordrecht: Springer Netherlands; 2011. Recent Trends in Valorization of Lignocellulose to Biofuel; pp. 381–409.

[6] Menon Vishnu, Rao Mala. Microorganisms in Sustainable Agriculture and Biotechnology. Dordrecht: Springer Netherlands; 2011. Recent Trends in Valorization of Lignocellulose to Biofuel; pp. 381–409.

[7] Berndes G, Hoogwijk M, Van Den Broek R. The contribution of biomass in the future global energy supply: a review of 17 studies. Biomass Bioenergy. 2003;25(1):1–28. doi: 10.1016/S0961-9534(02)00185-X. - DOI

[8] Berndes G, Hoogwijk M, Van Den Broek R. The contribution of biomass in the future global energy supply: a review of 17 studies. Biomass Bioenergy. 2003;25(1):1–28. doi: 10.1016/S0961-9534(02)00185-X. - DOI

[9] Chandel AK, Garlapati VK, Singh AK, Antunes FAF, da Silva SS. The path forward for lignocellulose biorefineries: bottlenecks, solutions, and perspective on commercialization. Bioresour Technol. 2018;264:370–381. doi: 10.1016/j.biortech.2018.06.004. - DOI - PubMed

[10] Chandel AK, Garlapati VK, Singh AK, Antunes FAF, da Silva SS. The path forward for lignocellulose biorefineries: bottlenecks, solutions, and perspective on commercialization. Bioresour Technol. 2018;264:370–381. doi: 10.1016/j.biortech.2018.06.004. - DOI - PubMed

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Pretreatment for biorefineries: a review of common methods for efficient utilisation of lignocellulosic materials

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Pretreatment for biorefineries: a review of common methods for efficient utilisation of lignocellulosic materials

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