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Enhancing hydrolysis and bio-methane generation of extruded lignocellulosic wood waste using microbial pre-treatment

Author

Listed:
  • Baghbanzadeh, Mohammadali
  • Savage, Jamie
  • Balde, Hambaliou
  • Sartaj, Majid
  • VanderZaag, Andrew C.
  • Abdehagh, Niloofar
  • Strehler, Benjamin

Abstract

Extruded waste wood was subjected to microbial pre-treatment using two bacterial strains, Petronet Alfa and Petronet Omega. In phase one, the effects of strain type and dose, and incubation temperature on hydrolysis were investigated through measuring the amount of dissolved glucose content after hydrolysis. In phase two, biomethane potential (BMP) assays were conducted for microbially pre-treated wood waste under the optimum conditions obtained in phase one. Results showed that the effect of strain dose, temperature, and aeration on released glucose were statistically significant at p-value of 0.05 level. At the optimum conditions of using Petronet Omega at a dose of 5.0 g/L and 37 °C, the microbial pre-treatment could increase the amount of dissolved glucose by as much as 205%. The findings of BMP assays showed improvement in biogas production as a result of the substrate pre-treatment by Petronet Alfa and Petronet Omega where a biomethane yield of 54.4 and 49.1 mL CH4/g VS were obtained, respectively, which correspond to 88.9 and 70.2% increase compared with the control. Among four kinetic models tested, the modified Gompertz model demonstrated the best performance and showed that the lag phase was significantly reduced due to microbial pre-treatment of substrate.

Suggested Citation

  • Baghbanzadeh, Mohammadali & Savage, Jamie & Balde, Hambaliou & Sartaj, Majid & VanderZaag, Andrew C. & Abdehagh, Niloofar & Strehler, Benjamin, 2021. "Enhancing hydrolysis and bio-methane generation of extruded lignocellulosic wood waste using microbial pre-treatment," Renewable Energy, Elsevier, vol. 170(C), pages 438-448.
  • Handle: RePEc:eee:renene:v:170:y:2021:i:c:p:438-448
    DOI: 10.1016/j.renene.2021.01.131
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    Cited by:

    1. Gao, Zhenghui & Alshehri, Khaled & Li, Yuan & Qian, Hang & Sapsford, Devin & Cleall, Peter & Harbottle, Michael, 2022. "Advances in biological techniques for sustainable lignocellulosic waste utilization in biogas production," Renewable and Sustainable Energy Reviews, Elsevier, vol. 170(C).
    2. Shabib, Ahmad & Abdallah, Mohamed & Shanableh, Abdallah & Sartaj, Majid, 2022. "Effect of substrates and voltages on the performance of bio-electrochemical anaerobic digestion," Renewable Energy, Elsevier, vol. 198(C), pages 16-27.

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