期刊
BIOFUEL RESEARCH JOURNAL-BRJ
卷 3, 期 2, 页码 417-+出版社
GREEN WAVE PUBL CANADA
DOI: 10.18331/BRJ2016.3.2.7
关键词
Brewers Spent Grains; Bioethanol; Enzymatic saccharification; High solids loading
资金
- SABMiller plc
- University of Nottingham
- BBSRC Sustainable Bioenergy Centre Programme Lignocellulosic Conversion To Ethanol [BB/G01616X/1]
- BBSRC [BB/G01616X/1] Funding Source: UKRI
- Biotechnology and Biological Sciences Research Council [BB/G01616X/1] Funding Source: researchfish
Enzyme saccharification of pretreated brewers spent grains (BSG) was investigated, aiming at maximising glucose production. Factors investigated were; variation of the solids loadings at different cellulolytic enzyme doses, reaction time, higher energy mixing methods, supplementation of the cellulolytic enzymes with additional enzymes (and cofactors) and use of fed-batch methods. Improved slurry agitation through aerated high-torque mixing offered small but significant enhancements in glucose yields (to 53 +/- 2.9 g/L and 45% of theoretical yield) compared to only 41 +/- 4.0 g/L and 39% of theoretical yield for standard shaking methods (at 15% w/v solids loading). Supplementation of the cellulolytic enzymes with additional enzymes (acetyl xylan esterases, ferulic acid esterases and alpha-L- arabinofuranosidases) also boosted achieved glucose yields to 58 - 69 +/- 0.8 - 6.2 g/L which equated to 52 - 58% of theoretical yield. Fed-batch methods also enhanced glucose yields (to 58 +/- 2.2 g/L and 35% of theoretical yield at 25% w/v solids loading) compared to non-fed-batch methods. From these investigations a novel enzymatic saccharification method was developed (using enhanced mixing, a fed-batch approach and additional carbohydrate degrading enzymes) which further increased glucose yields to 78 +/- 4.1 g/L and 43% of theoretical yield when operating at high solids loading (25% w/v). (C) 2016 BRTeam. All rights reserved.
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