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Energy Consumption at Size Reduction of Lignocellulose Biomass for Bioenergy

Author

Listed:
  • Georgiana Moiceanu

    (Department Management and Entrepreneurship, Politehnica University of Bucharest, 060042 Bucharest, Romania)

  • Gigel Paraschiv

    (Department of Biotechnical Systems, Politehnica University of Bucharest, 060042 Bucharest, Romania)

  • Gheorghe Voicu

    (Department of Biotechnical Systems, Politehnica University of Bucharest, 060042 Bucharest, Romania)

  • Mirela Dinca

    (Department of Biotechnical Systems, Politehnica University of Bucharest, 060042 Bucharest, Romania)

  • Olivia Negoita

    (Department Management and Entrepreneurship, Politehnica University of Bucharest, 060042 Bucharest, Romania)

  • Mihai Chitoiu

    (Department of Biotechnical Systems, Politehnica University of Bucharest, 060042 Bucharest, Romania)

  • Paula Tudor

    (Department Management and Entrepreneurship, Politehnica University of Bucharest, 060042 Bucharest, Romania)

Abstract

In order to obtain bioenergy (biogas, biofuel) or pellets, different types of lignocellulosic biomass are subjected to a mechanical pretreatment, first by size reduction, then by separating, and ultimately by fracturing or bio-refining. Biomass processing mainly refers to a grinding process that occurs until reaching certain limits. The size reduction process, such as grinding, is an operation that is executed with different levels of energy consumption, considering biomass mechanical characteristics and the necessary grinding level. This paper, illustrates a comparative analysis of experimental results obtained by grinding multiple types of vegetal biomass ( Miscanthus , corn stalks, alfalfa, willow) used in the process of bio-refining and bio-fracturing. Experiments were realized using both a laboratory knife mill Grindomix GM200 (Retsch GmbH, Haan, Germany), and a 22 kW articulated hammer mill, using different grinding system speeds and different hammer mill sieves. Results have shown that biomass mechanical pre-processing grinding leads to supplementary costs in the overall process through bio-refining or bio-fracturing in order to obtain bio-products or bio-energy. So, specific energy consumption for grinding using a hammer mill can reach 50–65 kJ/kg for harvested Miscanthus biomass, and 35–50 kJ/kg for dried energetic willow, using a 10 mm orifice sieve, values which increase processing costs.

Suggested Citation

  • Georgiana Moiceanu & Gigel Paraschiv & Gheorghe Voicu & Mirela Dinca & Olivia Negoita & Mihai Chitoiu & Paula Tudor, 2019. "Energy Consumption at Size Reduction of Lignocellulose Biomass for Bioenergy," Sustainability, MDPI, vol. 11(9), pages 1-12, April.
    • Handle: RePEc:gam:jsusta:v:11:y:2019:i:9:p:2477-:d:226418
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    Citations

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    Cited by:

    1. Adrian Knapczyk & Sławomir Francik & Marcin Jewiarz & Agnieszka Zawiślak & Renata Francik, 2020. "Thermal Treatment of Biomass: A Bibliometric Analysis—The Torrefaction Case," Energies, MDPI, vol. 14(1), pages 1-31, December.
    2. Andrzej Marczuk & Agata Blicharz-Kania & Petr A. Savinykh & Alexey Y. Isupov & Andrey V. Palichyn & Ilya I. Ivanov, 2019. "Studies of a Rotary–Centrifugal Grain Grinder Using a Multifactorial Experimental Design Method," Sustainability, MDPI, vol. 11(19), pages 1-11, September.
    3. Sławomir Francik & Adrian Knapczyk & Artur Knapczyk & Renata Francik, 2020. "Decision Support System for the Production of Miscanthus and Willow Briquettes," Energies, MDPI, vol. 13(6), pages 1-24, March.
    4. Yue Zhang & Sigrid Kusch-Brandt & Shiyan Gu & Sonia Heaven, 2019. "Particle Size Distribution in Municipal Solid Waste Pre-Treated for Bioprocessing," Resources, MDPI, vol. 8(4), pages 1-24, October.
    5. Areepak, Chitchanok & Jiradechakorn, Thitirat & Chuetor, Santi & Phalakornkule, Chantaraporn & Sriariyanun, Malinee & Raita, Marisa & Champreda, Verawat & Laosiripojana, Navadol, 2022. "Improvement of lignocellulosic pretreatment efficiency by combined chemo - Mechanical pretreatment for energy consumption reduction and biofuel production," Renewable Energy, Elsevier, vol. 182(C), pages 1094-1102.
    6. Marie Berger & Marie-Françoise Devaux & Claire Mayer-Laigle & Adrien Réau & Benoit Delord & Fabienne Guillon & Cécile Barron, 2022. "Friability of Maize Shoot ( Zea mays L.) in Relation to Cell Wall Composition and Physical Properties," Agriculture, MDPI, vol. 12(7), pages 1-21, June.
    7. Marie-Noël Mansour & Thomas Lendormi & Nicolas Louka & Richard G. Maroun & Zeina Hobaika & Jean-Louis Lanoisellé, 2023. "Anaerobic Digestion of Poultry Droppings in Semi-Continuous Mode and Effect of Their Co-Digestion with Physico-Chemical Sludge on Methane Yield," Sustainability, MDPI, vol. 15(7), pages 1-19, March.

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