Issue 22, 2022

Lignin alkaline oxidation using reversibly-soluble bases

Abstract

Lignin valorization approaches, which are critical to biorefining, often involve depolymerization to aromatic monomers. Alkaline oxidation has long held promise as a lignin depolymerization strategy, but requires high concentrations of base, typically NaOH, much of which must be neutralized to recover lignin-derived aromatic monomers. This consumption of base and associated waste generation incurs high cost and negative environmental impacts. In this work, we demonstrate that Sr(OH)2 and Ba(OH)2 perform comparably to NaOH in terms of total aromatic monomer yields in the aqueous aerobic alkaline depolymerization of corn stover lignin, and that up to 90% of these reversibly-soluble bases can be recovered via precipitation and filtration. Process modeling suggests that the use of Sr(OH)2 could reduce the cost of alkaline oxidation by 20–60% compared to NaOH, depending on lignin loading. In contrast, the energy required to regenerate the Sr largely offsets potential improvements in sustainability over Na-promoted alkaline oxidation, though the sustainability comparison is likely sensitive to the lignin composition and could be improved by further optimization of the regeneration step.

Graphical abstract: Lignin alkaline oxidation using reversibly-soluble bases

Supplementary files

Article information

Article type
Paper
Submitted
04 Gwen. 2022
Accepted
18 Here 2022
First published
26 Here 2022
This article is Open Access
Creative Commons BY license

Green Chem., 2022,24, 8733-8741

Lignin alkaline oxidation using reversibly-soluble bases

J. S. Kruger, R. J. Dreiling, D. G. Wilcox, A. J. Ringsby, K. L. Noon, C. K. Amador, D. G. Brandner, K. J. Ramirez, S. J. Haugen, B. C. Klein, R. Davis, R. J. Hanes, R. M. Happs, N. S. Cleveland, E. D. Christensen, J. Miscall and G. T. Beckham, Green Chem., 2022, 24, 8733 DOI: 10.1039/D2GC03333J

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