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Sugar production from wheat straw biomass by alkaline extrusion and enzymatic hydrolysis

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  • Coimbra, Michelle Cardoso
  • Duque, Aleta
  • Saéz, Felicia
  • Manzanares, Paloma
  • Garcia-Cruz, Crispin Humberto
  • Ballesteros, Mercedes

Abstract

One characteristic necessary to make ethanol production from biomass economically feasible is to optimize enzymatic dosage, since enzymes production is expensive. This work investigated the efficacy of different enzymes dosages and solid loadings on wheat straw enzymatic hydrolysis, aimed at obtaining process conditions that lead to good sugars yields from pretreated material. Alkaline extrusion was employed as pretreatment at 70 °C and 10% NaOH solution (w/v). Enzymatic hydrolysis was performed at 5, 10, 15 and 20% solids loading (w/v). Enzyme doses ranged from 6.92 to 20 FPU/g of glucan. Cellulase was also supplemented with xylanase at various proportions. Alkaline extrusion provided a substrate easier to hydrolyze than untreated material. Even the assay with the lowest enzyme dosage (6.92 FPU) achieved a good carbohydrate hydrolysis yield in relation to the theoretical; the glucose yield was 73.8% and xylose yield was 82.8%. A medium containing 100 g/L of fermentable sugar was obtained at 20% solids loading (w/v) and 20 FPU/g of glucan. The supplementation of cellulase with xylanase at U to FPU activity ratio of 3.11:1 improved the glucose yield about 21% over the assay with no xylanase.

Suggested Citation

  • Coimbra, Michelle Cardoso & Duque, Aleta & Saéz, Felicia & Manzanares, Paloma & Garcia-Cruz, Crispin Humberto & Ballesteros, Mercedes, 2016. "Sugar production from wheat straw biomass by alkaline extrusion and enzymatic hydrolysis," Renewable Energy, Elsevier, vol. 86(C), pages 1060-1068.
    • Handle: RePEc:eee:renene:v:86:y:2016:i:c:p:1060-1068
    DOI: 10.1016/j.renene.2015.09.026
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    References listed on IDEAS

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    1. Chen, Xiaohua & Zhang, YaLei & Gu, Yu & Liu, Zhanguang & Shen, Zheng & Chu, Huaqiang & Zhou, Xuefei, 2014. "Enhancing methane production from rice straw by extrusion pretreatment," Applied Energy, Elsevier, vol. 122(C), pages 34-41.
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    2. Argun, Hidayet & Onaran, Gülizar, 2016. "Glucose and 5-hydroxymethylfurfural production from cellulosic waste by sequential alkaline and acid hydrolysis," Renewable Energy, Elsevier, vol. 96(PA), pages 442-449.
    3. Lai, Long Wee & Idris, Ani, 2016. "Comparison of steam-alkali-chemical and microwave-alkali pretreatment for enhancing the enzymatic saccharification of oil palm trunk," Renewable Energy, Elsevier, vol. 99(C), pages 738-746.
    4. Tian, Shuang-Qi & Zhao, Ren-Yong & Chen, Zhi-Cheng, 2018. "Review of the pretreatment and bioconversion of lignocellulosic biomass from wheat straw materials," Renewable and Sustainable Energy Reviews, Elsevier, vol. 91(C), pages 483-489.
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    6. Chang, Xiaogang & Bai, Yuchen & Wu, Ruchun & Liu, Dehua & Zhao, Xuebing, 2020. "Heterogeneity of lignocellulose must be considered for kinetic study: A case on formic acid fractionation of sugarcane bagasse with different pseudo-homogeneous kinetic models," Renewable Energy, Elsevier, vol. 162(C), pages 2246-2258.
    7. Delon Konan & Ekoun Koffi & Adama Ndao & Eric Charles Peterson & Denis Rodrigue & Kokou Adjallé, 2022. "An Overview of Extrusion as a Pretreatment Method of Lignocellulosic Biomass," Energies, MDPI, vol. 15(9), pages 1-25, April.
    8. Pinto, T. & Flores-Alsina, X. & Gernaey, K.V. & Junicke, H., 2021. "Alone or together? A review on pure and mixed microbial cultures for butanol production," Renewable and Sustainable Energy Reviews, Elsevier, vol. 147(C).
    9. Duque, Aleta & Manzanares, Paloma & Ballesteros, Mercedes, 2017. "Extrusion as a pretreatment for lignocellulosic biomass: Fundamentals and applications," Renewable Energy, Elsevier, vol. 114(PB), pages 1427-1441.
    10. Wang, Zhi-Wen & Zhu, Ming-Qiang & Li, Ming-Fei & Wei, Qin & Sun, Run-Cang, 2019. "Effects of hydrothermal treatment on enhancing enzymatic hydrolysis of rapeseed straw," Renewable Energy, Elsevier, vol. 134(C), pages 446-452.

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