Mariana S. T. Amândio, Manuel J. A. Gonçalves, Luísa S. Serafim, Jorge M. S. Rocha, Ana M. R. B. Xavier
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Abstract
For the implementation of an integrated biorefinery into a pulping mill, the valorization of bark through cellulosic ethanol production and simultaneously the valorization of the residual yeast from each fermentation run should be considered to increase sustainability and pulp and paper profitability. Spent yeast recycling during cellulosic ethanol production is an opportunity to reduce waste according to environmental issues for disposal at the industrial level, boosting the circular economy. This work evaluated the reuse of spent yeast in successive fermentation experiments at Erlenmeyer and bioreactor scales for cellulosic ethanol from Eucalyptus globulus bark. The spent yeast recovered through centrifugation at the end of each experiment was used as inoculum for subsequent batch fermentation. Across five sequential fermentations, wherein only a fraction of spent yeast was recycled, a discernible decline in ethanol volumetric productivity was observed throughout successive fermentation cycles. Conversely, employing the complete spent yeast for recycling along 11 consecutive trials resulted in a notable enhancement of ethanol productivity, as evidenced by a reduction in fermentation duration to approximately one-third remaining the conversion efficiency above 70%. Four successive experimental trials were conducted at the bioreactor scale, resulting in volumetric productivities ranging from 2.00 to 5.83 g L−1 h−1. The reuse of spent yeast in consecutive fermentation cycles demonstrably augmented productivity, thereby validating a promising strategy for the industrial-scale production of cellulosic ethanol. This significantly contributes to advances in the circular economy principles within the overarching framework of biorefinery operations.
为了在纸浆厂中实施综合生物精炼厂,应考虑通过纤维素乙醇生产树皮的增值,同时应考虑每次发酵过程中残余酵母的增值,以增加可持续性和纸浆和造纸的盈利能力。纤维素乙醇生产过程中的废酵母回收利用是一个根据环境问题减少浪费的机会,可以在工业层面进行处理,从而促进循环经济。本研究评估了废酵母在Erlenmeyer和生物反应器尺度上的连续发酵实验中对桉树树皮纤维素乙醇的再利用。每次实验结束后,通过离心回收的废酵母作为后续分批发酵的接种物。在五个连续发酵中,其中只有一小部分废酵母被回收,在连续发酵周期中观察到乙醇体积生产力的明显下降。相反,在连续11次试验中,使用完整的废酵母进行循环利用,结果显著提高了乙醇产量,发酵时间缩短至约三分之一,转化效率保持在70%以上。在生物反应器规模上进行了四次连续实验,得到了2.00至5.83 g L−1 h−1的体积生产率。在连续发酵循环中重复使用废酵母明显提高了生产效率,从而验证了纤维素乙醇工业规模生产的有前途的策略。这大大有助于在生物炼制业务的总体框架内推进循环经济原则。图形抽象
期刊介绍:
Biomass Conversion and Biorefinery presents articles and information on research, development and applications in thermo-chemical conversion; physico-chemical conversion and bio-chemical conversion, including all necessary steps for the provision and preparation of the biomass as well as all possible downstream processing steps for the environmentally sound and economically viable provision of energy and chemical products.
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