A sustainable wood biorefinery for low–carbon footprint chemicals production

Yuhe Liao; S.-F. Koelewijn; Gil Van den Bossche; Joost Van Aelst; Sander Van den Bosch; Tom Renders; Kranti Navaré; Thomas Nicolaï; Korneel Van Aelst; Maarten Maesen; Hironori Matsushima; Johan M. Thevelein; Karel Van Acker; Bert Lagrain; Danny Verboekend; Bert F. Sels

doi:10.1126/science.aau1567

A sustainable wood biorefinery for low–carbon footprint chemicals production

Yuhe Liao(KU Leuven), S.-F. Koelewijn(KU Leuven), Gil Van den Bossche(KU Leuven), Joost Van Aelst(KU Leuven), Sander Van den Bosch(KU Leuven), Tom Renders(KU Leuven), Kranti Navaré(KU Leuven), Thomas Nicolaï(VIB-KU Leuven Center for Microbiology), Korneel Van Aelst(KU Leuven), Maarten Maesen(Palm Research Center), Hironori Matsushima(Palm Research Center), Johan M. Thevelein(VIB-KU Leuven Center for Microbiology), Karel Van Acker(VIB-KU Leuven Center for Microbiology), Bert Lagrain(KU Leuven), Danny Verboekend(KU Leuven), Bert F. Sels(KU Leuven)

Science

February 14, 2020

10.1126/science.aau1567

Cited by 1,097Open Access

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Abstract

Every twig and splinter used Plant-based production of commodity chemicals faces steep competition from fossil resources, which are often cheaper and easier to partition. Sustainable use of renewable resources requires strategies for converting complex and recalcitrant biomolecules into streams of chemicals with extraordinary efficiency. Liao et al. developed a biorefinery concept in which wood is eventually fully converted into useful chemicals: phenol, propylene, pulp amenable to ethanol production, and phenolic oligomers that can be incorporated into ink production (see the Perspective by Zhang). A life-cycle assessment and techno-economic analysis highlight the efficiency of the process and reveal the potential for such biorefinery strategies to contribute to sustainable chemicals markets. Science , this issue p. 1385 ; see also p. 1305

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