Green Fractionation Approaches for the Integrated Upgrade of Corn Cobs

IF 2.8 Q2 ENGINEERING, CHEMICAL ChemEngineering Pub Date : 2023-04-12 DOI:10.3390/chemengineering7020035
João Fialho, Patrícia Moniz, L. C. Duarte, F. Carvalheiro
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Abstract

Corn cob is an abundant agricultural residue worldwide, with high potential and interesting composition, and its valorization still needs to be studied. Selectively fractionating its structural components (hemicellulose, cellulose, and lignin), value-added products can be produced, eliminating waste. In this work, integrated fractionation approaches were developed and evaluated. First, an organosolv process was optimized (ethanol:water, 50:50, w/w). Then, as a comparative method, alkaline delignification (using NaOH, 1–2%) was also studied. The organosolv process allowed a significant delignification of the material (79% delignification yield) and, at the same time, a liquid phase containing a relevant concentration (14.6 g/L) of xylooligosaccharides (XOS). The resulting solid fraction, rich in cellulose, showed an enzymatic digestibility of 90%. The alkaline process increased the delignification yield to 94%, producing a solid fraction with a cellulose enzymatic digestibility of 83%. The two later techniques were also used in a combined strategy of hydrothermal processing (autohydrolysis) followed by delignification. The first allowed the selective hydrolysis of hemicellulose to produce XOS-rich hydrolysates (26.8 g/L, 67.3 g/100 g initial xylan). The further delignification processes, alkaline or organosolv, led to global delignification yields of 76% and 93%, respectively. The solid residue, enriched in glucan (above 75% for both combined processes), also presented high enzymatic saccharification yields, 89% and 90%, respectively. The fractionation strategies proposed, and the results obtained are very promising, enabling the integrated upgrading of this material into a biorefinery framework.
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玉米棒材综合升级的绿色分馏途径
玉米芯是世界范围内丰富的农业废渣,具有很高的潜力和有趣的成分,其价值仍有待研究。选择性地分馏其结构成分(半纤维素、纤维素和木质素),可以生产增值产品,消除浪费。在这项工作中,开发并评估了综合分馏方法。首先,优化了有机溶剂工艺(乙醇:水,50:50,w/w)。然后,作为一种比较方法,还研究了碱脱木素(使用1%–2%的NaOH)。有机溶剂法使材料显著脱木素(脱木素产率79%),同时使液相含有相关浓度(14.6g/L)的低聚木糖(XOS)。所得到的富含纤维素的固体部分显示出90%的酶消化率。碱性工艺将脱木素产率提高到94%,产生纤维素酶消化率为83%的固体部分。后来的两种技术也被用于水热处理(自动水解)和脱木素的联合策略。第一种允许半纤维素的选择性水解以产生富含XOS的水解产物(26.8g/L,67.3g/100g初始木聚糖)。进一步的脱木素过程,碱性或有机溶剂,导致全球脱木素产率分别为76%和93%。富含葡聚糖的固体残渣(两种联合工艺都超过75%)也具有较高的酶糖化产率,分别为89%和90%。提出的分馏策略和获得的结果非常有希望,使这种材料能够集成升级为生物精炼框架。
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来源期刊
ChemEngineering
ChemEngineering Engineering-Engineering (all)
CiteScore
4.00
自引率
4.00%
发文量
88
审稿时长
11 weeks
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