Abstract: In this study, a combination of catalytic and biotechnological processes was proposed for the first time for application in a cellulose biorefinery for the production of 5-HMF and bioethanol. Hydrolytic dehydration of the mechanically activated microcrystalline cellulose over a carbon-based mesoporous Sibunt-4 catalyst resulted in moderate yields of glucose and 5-HMF (21.1-25.1% and 6.6-9.4%). 5-HMF was extracted from the resulting mixture with isobutanol and subjected to ethanol fermentation. A number of yeast strains were isolated that also revealed high thermotolerance (up to 50°C) and resistance to inhibitors found in the hydrolysates. The strains Kluyveromyces marxianus C1 and Ogataea polymorpha CBS4732 are capable of producing ethanol on processed catalytic hydrolysates of cellulose at 42°C, with yields of 72.0±5.7% and 75.2±4.3% from the maximum theoretical yield of ethanol, respectively.

Cite: Sorokina K.N. , Taran O.P. , Medvedeva T.B. , Samoylova Y.V. , Piligaev A.V. , Parmon V.N.
Cellulose Biorefinery Based on Combined Catalytic and Biotechnological Approach for Production of 5-HMF and Ethanol
ChemSusChem. 2017. V.10. N3. P.562-574. DOI: 10.1002/cssc.201601244 WOS Scopus РИНЦ ANCAN PMID OpenAlex

Dates:

Submitted:	Sep 7, 2016
Accepted:	Nov 24, 2016
Published online:	Dec 20, 2016
Published print:	Feb 8, 2017

Identifiers:

Web of science:	WOS:000394572100012
Scopus:	2-s2.0-85009813073
Elibrary:	29472043
Chemical Abstracts:	2017:94802
Chemical Abstracts (print):	166:185757
PMID:	27995758
OpenAlex:	W2563763446

Citing:

DB	Citing
Web of science	26
Scopus	31
Elibrary	31
OpenAlex	35

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