Resources (Mar 2024)

Biomass Densification to Improve Management Efficiency and to Obtain High Value Products in México

  • Rigoberto Rosales-Serna,
  • Artemio Carrillo-Parra,
  • Julio César Ríos-Saucedo,
  • Damián Reyes-Jáquez,
  • Donaji Sierra-Zurita,
  • Saúl Santana-Espinoza,
  • Rafael Jiménez-Ocampo,
  • Pablo Alfredo Domínguez-Martínez,
  • Cynthia Adriana Nava-Berumen

DOI
https://doi.org/10.3390/resources13030048
Journal volume & issue
Vol. 13, no. 3
p. 48

Abstract

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In México, the utilization of fast-growing plant species for biomass production presents transportation-related issues such as freshness reduction, the transportation of large volumes with minimal weight due to low density, limited storage availability, and logistical challenges. To enhance understanding in this field, the research aimed to evaluate the densification potential of a variety of organic materials, with a specific emphasis on the biomass derived from eight species of rapidly growing plants, three animal species’ manure, and concentrated feed. After conditioning, 100 g samples underwent particle size analysis and were categorized into seven sizes. Pellets and briquettes (40 g, 10% moisture, 15 MPa pressure, 5 min processing, 80 °C temperature) were produced and evaluated for bulk density (BD) and pellet (PD) and briquette durability (BDU). The predominant particle sizes were 0.850 mm and 0.425 mm. Original biomass bulk density (OBBD) varied notably, with ovine manure (0.50 g cm−3) and cattle feed (0.49 g cm−3) exhibiting the highest values. Caprine manure (0.83 g cm−3) and ovine manure (0.78 g cm−3) yielded the densest pellets at 1.76 and 1.84 g cm−3, respectively. Apple tree pellets achieved premium quality with the highest hardness (97.9%). Cattle manure (1.25 g cm−3) and cattle feed (1.25 g cm−3) had the densest briquettes, with notable BBD/OBBD ratios in pine sawdust (4.6) and corn (4.5). Caprine manure and Acacia biomass briquettes showed premium quality with the highest hardness (99.1%), emphasizing densification variations and the need for tailored approaches based on organic material characteristics.

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