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Life Cycle Assessment of Polyol Production from Lignin via Organosolv and Liquefaction Treatments

Author

Listed:
  • Gianluca Cavalaglio

    (UNIPEGASO—Centro Direzionale Isola F2, Pegaso Telematic University, 80143 Naples, Italy)

  • Ippolita Mecca

    (UNIPEGASO—Centro Direzionale Isola F2, Pegaso Telematic University, 80143 Naples, Italy)

  • Paola Iodice

    (UNIPEGASO—Centro Direzionale Isola F2, Pegaso Telematic University, 80143 Naples, Italy)

  • Tommaso Giannoni

    (CIRIAF—Interuniversity Research Centre, UNIPG—University of Perugia, Via Goffredo Duranti 67, 06125 Perugia, Italy)

  • Mattia Gelosia

    (CIRIAF—Interuniversity Research Centre, UNIPG—University of Perugia, Via Goffredo Duranti 67, 06125 Perugia, Italy)

  • Andrea Nicolini

    (Department of Engineering, UNIPG—University of Perugia, Via Goffredo Duranti 93, 06125 Perugia, Italy)

  • Ramoon Barros Lovate Temporim

    (CIRIAF—Interuniversity Research Centre, UNIPG—University of Perugia, Via Goffredo Duranti 67, 06125 Perugia, Italy)

Abstract

This study aimed to conduct a comprehensive Life Cycle Assessment (LCA) of lignin-based polyol production through organosolv fractionation of cardoon stalks and subsequent lignin liquefaction. The LCA employed a cradle-to-gate approach, en co mpassing cardoon cultivation and all processing steps leading to polyol production. The research involved laboratory-scale optimization of the organosolv and liquefaction processes, followed by industrial-scale implementation. The analysis revealed that all stages of the production chain, including crop cultivation, organosolv, and liquefaction, significantly influenced overall environmental impacts. Specific materials and processes played pivotal roles, such as harvesting machinery and fertilizers in crop production, γ-Valerolactone (GVL) as the primary contributor (72–100%) to environmental impacts in the organosolv phase, and materials like polyethylene glycol 400 (PEG 400) and glycerin in the liquefaction phase, accounting for the majority (96–100%) of environmental impacts in this stage. When considering endpoint damage categories, it became evident that this production chain had a notable impact on human health, primarily due to emissions in air, water, and soil from agricultural processes. Lignin-based polyols demonstrated a moderate improvement compared to their petroleum-based counterparts, with an approximate reduction of 3–16% in environmental impact.

Suggested Citation

  • Gianluca Cavalaglio & Ippolita Mecca & Paola Iodice & Tommaso Giannoni & Mattia Gelosia & Andrea Nicolini & Ramoon Barros Lovate Temporim, 2023. "Life Cycle Assessment of Polyol Production from Lignin via Organosolv and Liquefaction Treatments," Sustainability, MDPI, vol. 15(22), pages 1-19, November.
  • Handle: RePEc:gam:jsusta:v:15:y:2023:i:22:p:15905-:d:1279461
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    References listed on IDEAS

    as
    1. Ramoon Barros Lovate Temporim & Gianluca Cavalaglio & Alessandro Petrozzi & Valentina Coccia & Paola Iodice & Andrea Nicolini & Franco Cotana, 2022. "Life Cycle Assessment and Energy Balance of a Polygeneration Plant Fed with Lignocellulosic Biomass of Cynara cardunculus L," Energies, MDPI, vol. 15(7), pages 1-21, March.
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