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Analysis of optimal temperature, pressure and binder quantity for the production of biocarbon pellet to be used as a substitute for coke

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  • Riva, Lorenzo
  • Nielsen, Henrik Kofoed
  • Skreiberg, Øyvind
  • Wang, Liang
  • Bartocci, Pietro
  • Barbanera, Marco
  • Bidini, Gianni
  • Fantozzi, Francesco

Abstract

In order to contribute to the decarbonization of the economy, efficient alternatives to coal and coke should be found not only in the power sector but also in the industrial sectors (like steel, silicon and manganese production) in which coal and coke are used as a reductant and for steel production also as a fuel. To this aim many research works have been focused on the development of a coke substitute based on woody biomass and known as “biocarbon”. There are still barriers to overcome, among them: the biocarbon low density, poor mechanical strength and high reactivity. In this paper a new biocarbon production methodology is proposed, based on: pyrolysis at 600 °C, densification (using pyrolysis oil as binder), reheating of the obtained pellet. Response surface methodology with a Box-Behnken experimental design was utilized to evaluate the effects of the process conditions on the pellet’s quality. Responses showed that densification was mainly affected by oil content and pelleting temperature, while pelleting pressure had a minor influence. The pelleting process has been finally optimized using Derringer’s desired function methodology. Optimal pelletizing conditions are: temperature equal to 60 °C, pressure equal to 116.7 MPa, oil content concentration of 33.9 wt%. These results are relevant for metal production industries at a global level. The identified optimal parameters of the new biocarbon production process can contribute to replace coke with sustainable fuels and probably reduce great part of the related greenhouse gases emissions.

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  • Riva, Lorenzo & Nielsen, Henrik Kofoed & Skreiberg, Øyvind & Wang, Liang & Bartocci, Pietro & Barbanera, Marco & Bidini, Gianni & Fantozzi, Francesco, 2019. "Analysis of optimal temperature, pressure and binder quantity for the production of biocarbon pellet to be used as a substitute for coke," Applied Energy, Elsevier, vol. 256(C).
    • Handle: RePEc:eee:appene:v:256:y:2019:i:c:s0306261919316204
    DOI: 10.1016/j.apenergy.2019.113933
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    6. Vicente Leme, Marcio Montagnana & Venturini, Osvaldo José & Silva Lora, Electo Eduardo & de Almeida, Wellington & Rocha, Mateus Henrique & Andrade da Cunha Dias, Tomás & del Olmo, Oscar Almazán, 2021. "Life cycle assessment of charcoal production and electricity generation from eucalyptus in an industrial batch kiln," Renewable Energy, Elsevier, vol. 180(C), pages 232-244.
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    12. Riva, Lorenzo & Wang, Liang & Ravenni, Giulia & Bartocci, Pietro & Buø, Therese Videm & Skreiberg, Øyvind & Fantozzi, Francesco & Nielsen, Henrik Kofoed, 2021. "Considerations on factors affecting biochar densification behavior based on a multiparameter model," Energy, Elsevier, vol. 221(C).
    13. Yu-Chiao Lu & Liviu Brabie & Andrey V. Karasev & Chuan Wang, 2022. "Applications of Hydrochar and Charcoal in the Iron and Steelmaking Industry—Part 2: Carburization of Liquid Iron by Addition of Iron–Carbon Briquettes," Sustainability, MDPI, vol. 14(9), pages 1-20, April.
    14. James W. Butler & William Skrivan & Samira Lotfi, 2023. "Identification of Optimal Binders for Torrefied Biomass Pellets," Energies, MDPI, vol. 16(8), pages 1-23, April.
    15. Gao, Zhuwei & Li, Chengxin & Qi, Xinyu & Wei, Yaodong & Liu, Zhongxin, 2022. "Flow analysis on carbonaceous deposition of heavy oil droplets and catalyst particles for coking formation process," Energy, Elsevier, vol. 260(C).
    16. Surup, Gerrit Ralf & Hunt, Andrew J. & Attard, Thomas & Budarin, Vitaliy L. & Forsberg, Fredrik & Arshadi, Mehrdad & Abdelsayed, Victor & Shekhawat, Dushyant & Trubetskaya, Anna, 2020. "The effect of wood composition and supercritical CO2 extraction on charcoal production in ferroalloy industries," Energy, Elsevier, vol. 193(C).
    17. Surup, Gerrit Ralf & Nielsen, Henrik Kofoed & Großarth, Marius & Deike, Rüdiger & Van den Bulcke, Jan & Kibleur, Pierre & Müller, Michael & Ziegner, Mirko & Yazhenskikh, Elena & Beloshapkin, Sergey & , 2020. "Effect of operating conditions and feedstock composition on the properties of manganese oxide or quartz charcoal pellets for the use in ferroalloy industries," Energy, Elsevier, vol. 193(C).
    18. Mika Pahnila & Aki Koskela & Petri Sulasalmi & Timo Fabritius, 2023. "A Review of Pyrolysis Technologies and the Effect of Process Parameters on Biocarbon Properties," Energies, MDPI, vol. 16(19), pages 1-27, October.
    19. Zhou, Hewen & Yang, Qing & Gul, Eid & Shi, Mengmeng & Li, Jiashuo & Yang, Minjiao & Yang, Haiping & Chen, Bin & Zhao, Haibo & Yan, Yunjun & Erdoğan, Güneş & Bartocci, Pietro & Fantozzi, Francesco, 2021. "Decarbonizing university campuses through the production of biogas from food waste: An LCA analysis," Renewable Energy, Elsevier, vol. 176(C), pages 565-578.
    20. Wioletta Żukiewicz-Sobczak & Agnieszka Latawiec & Paweł Sobczak & Bernardo Strassburg & Dorota Plewik & Małgorzata Tokarska-Rodak, 2020. "Biochars Originating from Different Biomass and Pyrolysis Process Reveal to Have Different Microbial Characterization: Implications for Practice," Sustainability, MDPI, vol. 12(4), pages 1-13, February.

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