4.7 Article

Biorefinery of Brewery Spent Grain by Solid-State Fermentation and Ionic Liquids

期刊

FOODS
卷 11, 期 22, 页码 -

出版社

MDPI
DOI: 10.3390/foods11223711

关键词

biorefinery; brewery spent grain; ionic liquids; Aspergillus brasiliensis; Trichoderma reesei

资金

  1. Spanish Ministry of Science and Innovation [PID2020-115879RB-I00]
  2. FAPESP (Sao Paulo Research Foundation) [2018/255111, 2021/15138-4]
  3. National Council for Scientific and Technological Development (CNPq) [408783/2021-4, 312923/20201]
  4. Xunta de Galicia (Spain) [GPC-ED431B 2021/23]

向作者/读者索取更多资源

Novel environmentally friendly pretreatments such as solid-state fermentation and ionic liquid treatment have been shown to effectively improve biomass fractionation and enzyme production. The combination of SSF with fungi and ionic liquid pretreatment can efficiently hydrolyze brewery spent grain, resulting in increased glucan and xylan content and reduced lignin content. The BSG biorefinery process developed in this study is a promising way to obtain fermentable sugar-containing solutions for the production of value-added products.
Novel environmentally friendly pretreatments have been developed in recent years to improve biomass fractionation. Solid-state fermentation (SSF) and treatment with ionic liquids show low environmental impact and can be used in biorefinery of biomass. In this work, these processes were assessed with brewery spent grain (BSG). First, BSG was used as a substrate to produce cellulases and xylanases by SSF with the fungi Aspergillus brasiliensis CECT 2700 and Trichoderma reesei CECT 2414. Then, BSG was pretreated with the ionic liquid [N1112OH][Gly] and hydrolyzed with the crude enzymatic extracts. Results showed that SSF of BSG with A. brasiliensis achieved the highest enzyme production; meanwhile, the pretreatment with ionic liquids allowed glucan and xylan fractions to increase and reduce the lignin content. In addition, a mixture of the extracts from both fungi in a ratio of 2.5:0.5 Aspergillus/Trichoderma (v/v) efficiently hydrolyzed the BSG previously treated with the ionic liquid [N1112OH][Gly], reaching saccharification percentages of 80.68%, 54.29%, and 19.58% for glucan, xylan, and arabinan, respectively. In conclusion, the results demonstrated that the BSG biorefinery process developed in this work is an effective way to obtain fermentable sugar-containing solutions, which can be used to produce value-added products.

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