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Comparison of various milling modes combined to the enzymatic hydrolysis of lignocellulosic biomass for bioenergy production: Glucose yield and energy efficiency

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  • Licari, A.
  • Monlau, F.
  • Solhy, A.
  • Buche, P.
  • Barakat, A.

Abstract

Bagasse is an abundant by-product from sugarcane production that can be used for conversion into biofuels. Nonetheless, the recalcitrant structures of lignocellulosic fibers required a pretreatment prior conversion into biofuels. In this study, four mechanical deconstruction methods were compared in terms of energy demand and energy efficiency at lab scale: BM (ball mill), VBM (vibratory ball mill), CM (centrifugal mill) and JM (jet mill). Results indicate that VBM was more effective compared to BM, JM and CM in enzymatic accessibility and sugars solubilization: VBM-3h > BM-72 h > JM-5000 rpm > CM-0.12 mm. However, preliminary energetic assessment showed that at lab scale, the CM (centrifugal mill) as mechanical fractionation process appears to be the most efficient in terms of energy-efficiency (kg glucose/kWh) compared to BM, VBM and JM. A comparison with literature pretreatments data highlighted that fine and/or ultrafine milling process (BM, VBM, CM) are simpler saccharification technologies, which not required any chemical or water inputs, thus minimizing waste generation and treatment.

Suggested Citation

  • Licari, A. & Monlau, F. & Solhy, A. & Buche, P. & Barakat, A., 2016. "Comparison of various milling modes combined to the enzymatic hydrolysis of lignocellulosic biomass for bioenergy production: Glucose yield and energy efficiency," Energy, Elsevier, vol. 102(C), pages 335-342.
    • Handle: RePEc:eee:energy:v:102:y:2016:i:c:p:335-342
    DOI: 10.1016/j.energy.2016.02.083
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    1. Moretti, Marcia Maria de Souza & Bocchini-Martins, Daniela Alonso & Nunes, Christiane da Costa Carreira & Villena, Maria Arévalo & Perrone, Olavo Micali & Silva, Roberto da & Boscolo, Maurício & Gomes, 2014. "Pretreatment of sugarcane bagasse with microwaves irradiation and its effects on the structure and on enzymatic hydrolysis," Applied Energy, Elsevier, vol. 122(C), pages 189-195.
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    3. Chen, Zhengyu & Wang, Huan & Wei, Weiqi & Yuan, Zhaoyang, 2021. "Enhancing bagasse enzymatic hydrolysis through combination of ball-milling and LiCl/DMSO dissolution and regeneration," Renewable Energy, Elsevier, vol. 171(C), pages 994-1001.
    4. Salameh, Tareq & Tawalbeh, Muhammad & Al-Shannag, Mohammad & Saidan, Motasem & Melhem, Khalid Bani & Alkasrawi, Malek, 2020. "Energy saving in the process of bioethanol production from renewable paper mill sludge," Energy, Elsevier, vol. 196(C).
    5. Manuel Fiallos-Cárdenas & Angel D. Ramirez & Simón Pérez-Martínez & Hugo Romero Bonilla & Marco Ordoñez-Viñan & Omar Ruiz-Barzola & Miguel A. Reinoso, 2021. "Bacterial Nanocellulose Derived from Banana Leaf Extract: Yield and Variation Factors," Resources, MDPI, vol. 10(12), pages 1-19, November.
    6. Zhang, Qiuzhuo & Huang, Huiqin & Han, Hui & Qiu, Zhen & Achal, Varenyam, 2017. "Stimulatory effect of in-situ detoxification on bioethanol production by rice straw," Energy, Elsevier, vol. 135(C), pages 32-39.
    7. Petar Sabev Varbanov & Hon Huin Chin & Alexandra-Elena Plesu Popescu & Stanislav Boldyryev, 2020. "Thermodynamics-Based Process Sustainability Evaluation," Energies, MDPI, vol. 13(9), pages 1-28, April.

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