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Valorization of bark for chemicals and materials: A review

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  • Feng, Shanghuan
  • Cheng, Shuna
  • Yuan, Zhongshun
  • Leitch, Mathew
  • Xu, Chunbao (Charles)

Abstract

The annual bark yield in Canada is as much as 17millionm3. Currently, more than half of the bark is incinerated or landfilled and the remainder of the bark is mainly used as a cheap source of energy in saw/pulp mills. Both bark incineration and landfilling can lead to environmental problems. Due to the abundance of ash in bark and the lower sintering point of bark ash than that of wood ash, the combustion of bark can lead to fouling which would damage the combustors. Bark contains a large fraction of extractives and lignin (up to 50wt% on a dry basis), which can be utilized as a renewable source of chemicals, particularly aromatic chemicals. The technical routes and technologies on the valorization of tree barks for chemicals and materials are reviewed in this paper. These include direct utilization of bark for wooden panels, and extraction for extractives (mainly tannin) and their the application in resins and foam materials, as well as conversion of bark via thermochemical technologies, mainly phenolysis, direct liquefaction in alcohols and pyrolysis. Finally, some challenges and perspectives on the production of chemicals and materials from bark are discussed.

Suggested Citation

  • Feng, Shanghuan & Cheng, Shuna & Yuan, Zhongshun & Leitch, Mathew & Xu, Chunbao (Charles), 2013. "Valorization of bark for chemicals and materials: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 26(C), pages 560-578.
  • Handle: RePEc:eee:rensus:v:26:y:2013:i:c:p:560-578
    DOI: 10.1016/j.rser.2013.06.024
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    References listed on IDEAS

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    1. Effendi, A. & Gerhauser, H. & Bridgwater, A.V., 2008. "Production of renewable phenolic resins by thermochemical conversion of biomass: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 12(8), pages 2092-2116, October.
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    1. Mariana S. T. Amândio & Jorge M. S. Rocha & Luísa S. Serafim & Ana M. R. B. Xavier, 2021. "Cellulosic Bioethanol from Industrial Eucalyptus globulus Bark Residues Using Kraft Pulping as a Pretreatment," Energies, MDPI, vol. 14(8), pages 1-18, April.
    2. Garcia, Dorival Pinheiro & Caraschi, José Cláudio & Ventorim, Gustavo & Vieira, Fábio Henrique Antunes & de Paula Protásio, Thiago, 2019. "Assessment of plant biomass for pellet production using multivariate statistics (PCA and HCA)," Renewable Energy, Elsevier, vol. 139(C), pages 796-805.
    3. Chen, Congjin & Zhu, Jingxian & Jia, Shuang & Mi, Shuai & Tong, Zhangfa & Li, Zhixia & Li, Mingfei & Zhang, Yanjuan & Hu, Yuhua & Huang, Zuqiang, 2018. "Effect of ethanol on Mulberry bark hydrothermal liquefaction and bio-oil chemical compositions," Energy, Elsevier, vol. 162(C), pages 460-475.
    4. Mariusz Jerzy Stolarski & Paweł Dudziec & Ewelina Olba-Zięty & Paweł Stachowicz & Michał Krzyżaniak, 2022. "Forest Dendromass as Energy Feedstock: Diversity of Properties and Composition Depending on Systematic Genus and Organ," Energies, MDPI, vol. 15(4), pages 1-60, February.
    5. Wei, Rufei & Zhang, Lingling & Cang, Daqiang & Li, Jiaxin & Li, Xianwei & Xu, Chunbao Charles, 2017. "Current status and potential of biomass utilization in ferrous metallurgical industry," Renewable and Sustainable Energy Reviews, Elsevier, vol. 68(P1), pages 511-524.
    6. Hrnčič, Maša Knez & Kravanja, Gregor & Knez, Željko, 2016. "Hydrothermal treatment of biomass for energy and chemicals," Energy, Elsevier, vol. 116(P2), pages 1312-1322.

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