Sarrouh Boutros Fouad, de Freitas Branco Ricardo, da Silva Silvio Silvério
Engineering School of Lorena-USP, Biotechnology Department, Campinho road, P.O. Box 116, CEP: 12.602-810, Lorena, SP, Brazil.
Appl Biochem Biotechnol. 2009 May;153(1-3):163-70. doi: 10.1007/s12010-009-8548-5. Epub 2009 Feb 12.
Dilute-acid hydrolysis pretreatment of sugarcane bagasse resulted in release of 48% (18.4 g/L) of the xylan in the hemicellulose fraction into the hydrolysate as monomeric xylose. In order to enhance the recuperation of this monomer, a post-hydrolysis stage consisted of thermal treatment was carried out. This treatment resulted in an increase in xylose release of 62% (23.5 g/L) of the hemicellulose fraction. Original and post-hydrolysates were concentrated to the same levels of monomeric xylose in the fermentor feed. During the fermentation process, cellular growth was observed to be higher in the post-hydrolysate (3.5 g/L, Y(x/s) = 0.075 g cells/g xylose) than in the original hydrolysate (2.9 g/L, Y(x/s) = 0.068 g cells/g xylose). The post-treated hydrolysate required less concentration of sugars resulting in a lower concentration of fermentation inhibitors, which were formed primarily in the dilute acid hydrolysis step. Post-hydrolysis step led to a high xylose-xylitol conversion efficiency of 76% (0.7 g xylitol/g xylose) and volumetric productivity of 0.68 g xylitol/L h when compared to 71% (0.65 g xylitol/g xylose and productivity of 0.61 g xylitol/L h) for the original hemicellulosic hydrolysate.
甘蔗渣的稀酸水解预处理使半纤维素部分中48%(18.4克/升)的木聚糖以单体木糖的形式释放到水解产物中。为了提高这种单体的回收率,进行了一个包括热处理的水解后阶段。该处理使半纤维素部分的木糖释放量增加了62%(23.5克/升)。将原始水解产物和水解后产物浓缩至发酵罐进料中单体木糖的相同水平。在发酵过程中,观察到水解后产物中的细胞生长(3.5克/升,Y(x/s)=0.075克细胞/克木糖)高于原始水解产物(2.9克/升,Y(x/s)=0.068克细胞/克木糖)。经后处理的水解产物所需的糖浓度较低,导致发酵抑制剂的浓度较低,这些抑制剂主要在稀酸水解步骤中形成。与原始半纤维素水解产物的71%(0.65克木糖醇/克木糖,生产率为0.61克木糖醇/升·小时)相比,水解后步骤导致木糖-木糖醇的转化效率高达76%(0.7克木糖醇/克木糖),体积生产率为0.68克木糖醇/升·小时。
