Energies (Jul 2024)

Technological Prospects of Biochar Derived from Viticulture Waste: Characterization and Application Perspectives

  • Veronica D’Eusanio,
  • Antonio Lezza,
  • Biagio Anderlini,
  • Daniele Malferrari,
  • Marcello Romagnoli,
  • Fabrizio Roncaglia

DOI
https://doi.org/10.3390/en17143421
Journal volume & issue
Vol. 17, no. 14
p. 3421

Abstract

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The increasing demand for sustainable agricultural practices aimed at reducing carbon dioxide emissions has driven the exploration of converting viticulture residues into biochar. This study investigates the potential technological applications of biochar as a filler for the production of electrically conductive composite materials, suitable to Bipolar Plate (BP) manufacturing. Grape seeds (GSs), defatted grape seeds (DGSs), wood stems (WSs), and whole grape seeds (WGSs) were converted into biochar samples through low-temperature (300 °C) pyrolysis for 3 or 24 h. The composition and thermal stability of biochar were evaluated through thermogravimetric analysis (TG), which provided valuable insights into interpreting the in-plane conductivity (IPC) values of the BP samples. Pyrolyzed GS and DGS biochar samples demonstrated enhanced thermal stability and conferred higher IPC values compared to WS counterparts. This indicates a clear correlation between the formation of carbon-rich structures during pyrolysis and overall electrical conductivity. In contrast, pyrolyzed WGSs produced BP samples with lower IPC values due to the presence of lipids, which were not effectively degraded by the low-temperature pyrolysis.

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