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Batch pyrolysis of cotton stalks for evaluation of biochar energy potential

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  • Al Afif, Rafat
  • Anayah, S. Sean
  • Pfeifer, Christoph

Abstract

The thermal cracking of cotton stalks (CS) through pyrolysis was undertaken using a laboratory scale batch pyrolysis reactor. The distribution of pyrolysis products were studied dependent on the final pyrolysis temperature which ranged from 300 to 800 °C by 100K intervals. The maximum biochar yield of 46.5% was obtained at 400 °C. As the pyrolysis process temperature increased, the solid char product yield decreased. The largest higher heating value (25.845 MJ kg−1) was obtained at 600 °C. All biochar samples produced between 500 and 700 °C had an energy densification ratio of 1.41, indicating a higher mass-energy density than the initial feedstock. A larger share of syngas and bio-oil were produced at higher temperatures, as estimated. Preferential selection of a char based on the energy yield would lead to a selection of the 400 °C product, while selection based on the energy densification ratio would be for a product obtained between 500 and 700 °C. An energy simulation was conducted which determined that the process is self-sustaining at and above 400 °C. Furthermore, the global energy potential was determined from CS pyrolysis, which was estimated at 380 PJ yr−1 could contribute to roughly 0.1% of the actual global total primary energy supply of 576 EJ yr−1.

Suggested Citation

  • Al Afif, Rafat & Anayah, S. Sean & Pfeifer, Christoph, 2020. "Batch pyrolysis of cotton stalks for evaluation of biochar energy potential," Renewable Energy, Elsevier, vol. 147(P1), pages 2250-2258.
    • Handle: RePEc:eee:renene:v:147:y:2020:i:p1:p:2250-2258
    DOI: 10.1016/j.renene.2019.09.146
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    References listed on IDEAS

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    1. Johnson, James D. & Kiawu, James & MacDonald, Stephen & Meyer, Leslie A., 2012. "The World And United States Cotton Outlook," Agricultural Outlook Forum 2012 126441, United States Department of Agriculture, Agricultural Outlook Forum.
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    Cited by:

    1. Zhongqi He & Dan C. Olk & Haile Tewolde & Hailin Zhang & Mark Shankle, 2019. "Carbohydrate and Amino Acid Profiles of Cotton Plant Biomass Products," Agriculture, MDPI, vol. 10(1), pages 1-14, December.
    2. Primaz, Carmem T. & Ribes-Greus, Amparo & Jacques, Rosângela A., 2021. "Valorization of cotton residues for production of bio-oil and engineered biochar," Energy, Elsevier, vol. 235(C).
    3. Cueva Zepeda, Lolita & Griffin, Gregory & Shah, Kalpit & Al-Waili, Ibrahim & Parthasarathy, Rajarathinam, 2023. "Energy potential, flow characteristics and stability of water and alcohol-based rice-straw biochar slurry fuel," Renewable Energy, Elsevier, vol. 207(C), pages 60-72.
    4. Nugroho, Rusdan Aditya Aji & Alhikami, Akhmad Faruq & Wang, Wei-Cheng, 2023. "Thermal decomposition of polypropylene plastics through vacuum pyrolysis," Energy, Elsevier, vol. 277(C).
    5. Baghel, Paramjeet & Sakhiya, Anil Kumar & Kaushal, Priyanka, 2022. "Influence of temperature on slow pyrolysis of Prosopis Juliflora: An experimental and thermodynamic approach," Renewable Energy, Elsevier, vol. 185(C), pages 538-551.
    6. Liu, Tianyu & Wen, Chang & Li, Changkang & Yan, Kai & Li, Rui & Jing, Zhenqi & Zhang, Bohan & Ma, Jingjing, 2022. "Integrated water washing and carbonization pretreatment of typical herbaceous and woody biomass: Fuel properties, combustion behaviors, and techno-economic assessments," Renewable Energy, Elsevier, vol. 200(C), pages 218-233.
    7. Natalia Politaeva & Yulia Smyatskaya & Rafat Al Afif & Christoph Pfeifer & Liliya Mukhametova, 2020. "Development of Full-Cycle Utilization of Chlorella sorokiniana Microalgae Biomass for Environmental and Food Purposes," Energies, MDPI, vol. 13(10), pages 1-16, May.
    8. Al Afif, Rafat & Wendland, Martin & Amon, Thomas & Pfeifer, Christoph, 2020. "Supercritical carbon dioxide enhanced pre-treatment of cotton stalks for methane production," Energy, Elsevier, vol. 194(C).

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