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Evaluation of organosolv pretreatment on the enzymatic digestibility of coconut coir fibers and bioethanol production via simultaneous saccharification and fermentation

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  • Ebrahimi, Majid
  • Caparanga, Alvin R.
  • Ordono, Emma E.
  • Villaflores, Oliver B.

Abstract

Coconut coir fibers, which analyzed 34.8% glucan, 18.3% xylan, 35.8% lignin and 8.7% extractives, were pretreated with acidified aqueous glycerol (10% water) at a solid/liquid ratio loading of 1:20 and 1:30, a temperature of 130 °C and 60,30, and 15 min contact time. The maximum yield of glucan digestibility was 79.7% and 81.8% for the respective solid/liquid ratios for 30 min of pretreatment. The simultaneous saccharification and fermentation was conducted anaerobically at 37 °C with Saccharomyces cerevisiae, 5% w/v glucan, and 10 FPU/g glucan of cellulase. The highest ethanol concentrations obtained after 3 days of incubation from pretreated coconut coir fiber were 8.97 and 8.81 g/L, respectively, for the samples pretreated with acidified aqueous glycerol at 1:30 and 1:20 solid/liquid loading ratio for 30 min.

Suggested Citation

  • Ebrahimi, Majid & Caparanga, Alvin R. & Ordono, Emma E. & Villaflores, Oliver B., 2017. "Evaluation of organosolv pretreatment on the enzymatic digestibility of coconut coir fibers and bioethanol production via simultaneous saccharification and fermentation," Renewable Energy, Elsevier, vol. 109(C), pages 41-48.
    • Handle: RePEc:eee:renene:v:109:y:2017:i:c:p:41-48
    DOI: 10.1016/j.renene.2017.03.011
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    References listed on IDEAS

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    1. Gonçalves, Fabiano Avelino & Ruiz, Héctor A. & Silvino dos Santos, Everaldo & Teixeira, José A. & de Macedo, Gorete Ribeiro, 2016. "Bioethanol production by Saccharomyces cerevisiae, Pichia stipitis and Zymomonas mobilis from delignified coconut fibre mature and lignin extraction according to biorefinery concept," Renewable Energy, Elsevier, vol. 94(C), pages 353-365.
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    3. Sarkar, Nibedita & Ghosh, Sumanta Kumar & Bannerjee, Satarupa & Aikat, Kaustav, 2012. "Bioethanol production from agricultural wastes: An overview," Renewable Energy, Elsevier, vol. 37(1), pages 19-27.
    4. Kim, Tae Hoon & Kim, Tae Hyun, 2014. "Overview of technical barriers and implementation of cellulosic ethanol in the U.S," Energy, Elsevier, vol. 66(C), pages 13-19.
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    1. Tsegaye, Bahiru & Balomajumder, Chandrajit & Roy, Partha, 2020. "Organosolv pretreatments of rice straw followed by microbial hydrolysis for efficient biofuel production," Renewable Energy, Elsevier, vol. 148(C), pages 923-934.
    2. Costa, Juliana E.B. & Barbosa, Andrey S. & Melo, Marcus A.F. & Melo, Dulce M.A. & Medeiros, Rodolfo L.B.A. & Braga, Renata M., 2022. "Renewable aromatics through catalytic pyrolysis of coconut fiber (Cocos nucífera Linn.) using low cost HZSM-5," Renewable Energy, Elsevier, vol. 191(C), pages 439-446.
    3. 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.
    4. Oliva, A. & Tan, L.C. & Papirio, S. & Esposito, G. & Lens, P.N.L., 2021. "Effect of methanol-organosolv pretreatment on anaerobic digestion of lignocellulosic materials," Renewable Energy, Elsevier, vol. 169(C), pages 1000-1012.

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