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Improving xylose utilization and ethanol production from dry dilute acid pretreated corn stover by two-step and fed-batch fermentation

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  • Li, Wen-Chao
  • Li, Xia
  • Zhu, Jia-Qing
  • Qin, Lei
  • Li, Bing-Zhi
  • Yuan, Ying-Jin

Abstract

It is a great challenge to efficiently utilize xylose in fermentation with high solid loadings for the economically feasible production of lignocellulosic ethanol. However, 20% solid loading of dry dilute acid pretreated corn stover (DDAPCS) decreased 66.3% of the xylose consumption compared to yeast extract peptone dextrose and xylose (YPDX) medium, which was significantly larger than 16% solid loading (9.4%). To overcome those problems, several two-step processes for simultaneous saccharification and co-fermentation (SSCF) were developed by inoculating a water extract of 16% solid loading DDAPCS with microorganisms in the first fermentation step. During the first step, the relatively lower inhibitor concentrations (compared to 20% solid loading), decreased glucose concentration, and the absence of enzymatic hydrolysis residues (EHR) were beneficial for the use of xylose and enabled up to 75.6% of the xylose to be converted to ethanol. With an optimized fed-batch strategy of two-step process, the residual xylose concentration reduced by 55.6% with 20% solid loading, and the maximum ethanol concentration and yield increased by 30% and 16.6%, respectively.

Suggested Citation

  • Li, Wen-Chao & Li, Xia & Zhu, Jia-Qing & Qin, Lei & Li, Bing-Zhi & Yuan, Ying-Jin, 2018. "Improving xylose utilization and ethanol production from dry dilute acid pretreated corn stover by two-step and fed-batch fermentation," Energy, Elsevier, vol. 157(C), pages 877-885.
    • Handle: RePEc:eee:energy:v:157:y:2018:i:c:p:877-885
    DOI: 10.1016/j.energy.2018.06.002
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    1. Li, Wen-Chao & Zhang, Sen-Jia & Xu, Tao & Sun, Mei-Qing & Zhu, Jia-Qing & Zhong, Cheng & Li, Bing-Zhi & Yuan, Ying-Jin, 2020. "Fractionation of corn stover by two-step pretreatment for production of ethanol, furfural, and lignin," Energy, Elsevier, vol. 195(C).
    2. Lu, Jie & Song, Fuyu & Liu, Hao & Chang, Chengcheng & Cheng, Yi & Wang, Haisong, 2021. "Production of high concentration bioethanol from reed by combined liquid hot water and sodium carbonate-oxygen pretreatment," Energy, Elsevier, vol. 217(C).
    3. Jiang, Xiaoxiao & Zhai, Rui & Li, Haixiang & Li, Chen & Deng, Qiufeng & Wu, Xuelan & Jin, Mingjie, 2023. "Binary additives for in-situ mitigating the inhibitory effect of lignin-derived phenolics on enzymatic hydrolysis of lignocellulose: Enhanced performance and synergistic mechanism," Energy, Elsevier, vol. 282(C).
    4. He, Dingping & Chen, Xueli & Lu, Minsheng & Shi, Suan & Cao, Limin & Yu, Haitao & Lin, Hao & Jia, Xiwen & Han, Lujia & Xiao, Weihua, 2023. "High-solids saccharification and fermentation of ball-milled corn stover enabling high titer bioethanol production," Renewable Energy, Elsevier, vol. 202(C), pages 336-346.
    5. Shen, Guannan & Yuan, Xinchuan & Chen, Sitong & Liu, Shuangmei & Jin, Mingjie, 2022. "High titer cellulosic ethanol production from sugarcane bagasse via DLCA pretreatment and process development without washing/detoxifying pretreated biomass," Renewable Energy, Elsevier, vol. 186(C), pages 904-913.

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