Biomass-degrading enzymes are one of the most costly inputs affecting the economic viability of the biochemical route for biomass conversion into biofuels. This work evaluates the effects of operational conditions on biomass-degrading multienzyme production by a selected strain of Aspergillus niger. The fungus was cultivated under solid-state fermentation (SSF) of soybean meal, using an instrumented lab-scale bioreactor equipped with an on-line automated monitoring and control system. The effects of air flow rate, inlet air relative humidity, and initial substrate moisture content on multienzyme (FPase, endoglucanase, and xylanase) production were evaluated using a statistical design methodology. Highest production of FPase (0.55 IU/g), endoglucanase (35.1 IU/g), and xylanase (47.7 IU/g) was achieved using an initial substrate moisture content of 84%, an inlet air humidity of 70%, and a flow rate of 24 mL/min. The enzymatic complex was then used to hydrolyze a lignocellulosic biomass, releasing 4.4 g/L of glucose after 36 hours of saccharification of 50 g/L pretreated sugar cane bagasse. These results demonstrate the potential application of enzymes produced under SSF, thus contributing to generate the necessary technological advances to increase the efficiency of the use of biomass as a renewable energy source.
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机译:生物质降解酶是影响生物质转化为生物燃料的生物化学路线的经济可行性的最昂贵的投入之一。这项工作评估操作条件对黑曲霉所选菌株对生物质降解多酶生产的影响。使用配备有在线自动监控系统的仪器化实验室规模生物反应器,在豆粕的固态发酵(SSF)下培养真菌。使用统计设计方法评估了空气流速,进气相对湿度和初始底物含水量对多酶(FPase,内切葡聚糖酶和木聚糖酶)生产的影响。使用84%的初始底物水分,70%的进气湿度和流量,可实现最高产量的FPase(0.55 IU / g),内切葡聚糖酶(35.1 IU / g)和木聚糖酶(47.7 IU / g)。 24 mL / min然后将酶促复合物水解木质纤维素生物质,将50μg/ L预处理的甘蔗渣糖化36小时后释放4.4μg/ L的葡萄糖。这些结果证明了在SSF下生产酶的潜在应用,从而有助于产生必要的技术进步,以提高利用生物质作为可再生能源的效率。
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