Molecules (Sep 2020)

Second-Generation Lignocellulosic Supportive Material Improves Atomic Ratios of C:O and H:O and Thermomechanical Behavior of Hybrid Non-Woody Pellets

  • Bruno Rafael de Almeida Moreira,
  • Ronaldo da Silva Viana,
  • Victor Hugo Cruz,
  • Anderson Chagas Magalhães,
  • Celso Tadao Miasaki,
  • Paulo Alexandre Monteiro de Figueiredo,
  • Lucas Aparecido Manzani Lisboa,
  • Sérgio Bispo Ramos,
  • Douglas Enrique Juárez Sánchez,
  • Marcelo Carvalho Minhoto Teixeira Filho,
  • André May

DOI
https://doi.org/10.3390/molecules25184219
Journal volume & issue
Vol. 25, no. 18
p. 4219

Abstract

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Pellets refer to solid biofuels for heating and power. The pellet’s integrity is of great relevant to ensure safe and effective transportation and storage, and comfort to stakeholders. Several materials that are supportive, whether organic and inorganic, to pellets exist. However, no work in the literature is linking making hybrid non-wood pellets with addition of residual biomass from distillation of cellulosic bioethanol, and this requires further investigations. Figuring out how effective this challenging agro-industrial residue could be for reinforcing non-wood pellets is accordingly the scientific point of this study focusing on management of waste and valorization of biomass. The pilot-scale manufacturing of hybrid pellets consisted of systematically pressing sugarcane bagasse with the lignocellulosic reinforcement at the mass ratios of 3:1, 1:1, and 1:3 on an automatic pelletizer machine at 200 MPa and 125 °C. Elemental contents of C and H, durability, and energy density all increased significantly from 50.05 to 53.50%, 5.95 to 7.80%, 95.90 to 99.55%, and 28.20 to 31.20 MJ kg−1, respectively, with blending the starting material with the reinforcement at 1:3. Preliminary evidence of residual biomass from distillation of second-generation bioethanol capable of highly improving molecular flammable/combustible properties, mechanical stability, and fuel power of composite non-wood pellets exist.

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