Biphasic pretreatment for energy and carbon efficient conversion of lignocellulose into bioenergy and reactive lignin

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

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Author(s)

  • Md Khairul Islam
  • Shazia Rehman
  • Jianyu Guan
  • Chun-Yin Lau
  • Ho-Yin Tse
  • And 2 others
  • Chi Shun Yeung
  • Shao-Yuan Leu

Detail(s)

Original languageEnglish
Article number117653
Journal / PublicationApplied Energy
Volume303
Online published1 Sept 2021
Publication statusPublished - 1 Dec 2021
Externally publishedYes

Abstract

Lignocellulosic biomass is an emerging resource of carbohydrates and bio-based aromatics derived from biorefinery. However, pretreatment of biomass to fractionate building-block chemicals is an energy-intensive process affecting the sustainability of the whole process. This study aims to investigate the energy and carbon benefits of a novel biphasic pentanol-water pretreatment. To compare, three different pretreatment scenarios i.e., dilute acid, conventional ethanosolv, and biphasic pentanol-water pretreatments were investigated for the conversion of Acacia Confusa wood chips to produce benchmark fuel and reactive lignin. The results showed that the proposed biphasic pretreatment yielded 70.3% lignin dissolution in the organic phase while leaving cellulose as an insoluble solid residue. Simultaneous saccharification and fermentation resulted in 92.2% cellulose digestibility of pretreated substrates and ethanol yield of 0.41 g/g-glucan in the fermentation broths. Biphasic pretreatment also preserved 42.5% of reactive β-aryl ether linkages in fractionated lignin which is higher than ethanosolv pretreatment (31.1%). Carbon balance showed that the biphasic process recovered 50.3% wood carbon in the product streams as ethanol and reactive lignin, which is higher than the dilute acid (17.1%) and ethanosolv (49.6%) approaches. The overall energy balance showed that the biphasic process yielded net positive energy of 1.1 MJ/kg-wood which was much higher than the dilute acid (−0.16 MJ/kg) and ethanosolv (−1.6 MJ/kg) processes. This was due to the physical separation of dissolved sugars and lignin which reduced about 32.4% of the total energy consumption compared to ethanosolv biorefinery indicating the feasibility of the proposed biphasic process. © 2021 Elsevier Ltd. All rights reserved.

Research Area(s)

  • Energy footprint, Carbon balance, Bioethanol, Biphasic pretreatment, Pentanol-water, Reactive lignin

Citation Format(s)

Biphasic pretreatment for energy and carbon efficient conversion of lignocellulose into bioenergy and reactive lignin. / Islam, Md Khairul; Rehman, Shazia; Guan, Jianyu et al.
In: Applied Energy, Vol. 303, 117653, 01.12.2021.

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review