Laboratory of Biological Engineering, Department of Chemical and Food Engineering, UFSC - Federal University of Santa Catarina, Florianópolis, SC, 88040-970, Brazil.
Yeast Molecular Biology and Biotechnology Laboratory, Department of Biochemistry, Federal University of Santa Catarina, Florianópolis, SC, Brazil.
Bioprocess Biosyst Eng. 2021 Feb;44(2):297-306. doi: 10.1007/s00449-020-02442-1. Epub 2020 Sep 18.
The deconstruction of banana peel for carbohydrate recovery was performed by sequential treatment (acid, alkaline, and enzymatic). The pretreatment with citric acid promoted the extraction of pectin, resulting in a yield of 8%. In addition, xylose and XOS, 348.5 and 17.3 mg/g xylan, respectively, were also quantified in acidic liquor as a result of partial depolymerization of hemicellulose. The spent solid was pretreated with alkaline solution (NaOH or KOH) for delignification and release of residual carbohydrates from the hemicellulose. The yields of xylose and arabinose (225.2 and 174.0 mg/g hemicellulose) were approximately 40% higher in the pretreatment with KOH, while pretreatment with NaOH promoted higher delignification (67%), XOS yield (32.6 mg/g xylan), and preservation of cellulosic fraction. Finally, the spent alkaline solid, rich in cellulose (76%), was treated enzymatically to release glucose, reaching the final concentration of 28.2 g/L. The mass balance showed that through sequential treatment, 9.9 g of xylose, 0.5 g of XOS, and 8.2 g of glucose were obtained from 100 g of raw banana peels, representing 65.8% and 46.5% conversion of hemicellulose and cellulose, respectively. The study of the fractionation of carbohydrates in banana peel proved to be a useful tool for valorization, mainly of the hemicellulose fraction for the production of XOS and xylose with high value applications in the food industry.
香蕉皮的碳水化合物回收通过顺序处理(酸、碱和酶)进行解构。柠檬酸预处理促进了果胶的提取,产率为 8%。此外,由于半纤维素的部分解聚,酸性液体中还定量了木糖和 XOS,分别为 348.5 和 17.3mg/g 木聚糖。废固体用碱性溶液(NaOH 或 KOH)预处理进行脱木质素,并从半纤维素中释放残留的碳水化合物。KOH 预处理的木糖和阿拉伯糖(225.2 和 174.0mg/g 半纤维素)产率约高 40%,而 NaOH 预处理则促进了更高的脱木质素(67%)、XOS 产率(32.6mg/g 木聚糖)和纤维素部分的保留。最后,富含纤维素(76%)的碱性废固体用酶处理以释放葡萄糖,达到最终浓度 28.2g/L。质量平衡表明,通过顺序处理,从 100g 生香蕉皮中获得了 9.9g 木糖、0.5g XOS 和 8.2g 葡萄糖,分别代表半纤维素和纤维素转化率为 65.8%和 46.5%。对香蕉皮中碳水化合物的分级研究证明是一种有价值的增值工具,主要是对半纤维素部分进行增值,用于生产食品工业中具有高附加值应用的 XOS 和木糖。
