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Biodiesel from Bark and Black Liquor—A Techno-Economic, Social, and Environmental Assessment

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  • Julia Hansson

    (Department of Mechanics and Maritime Sciences, Maritime Environmental Sciences, Chalmers University of Technology, Hörselgången 4, 412 96 Gothenburg, Sweden
    IVL Swedish Environmental Research Institute, Aschebergsgatan 44, 411 33 Gothenburg, Sweden)

  • Sofia Klugman

    (IVL Swedish Environmental Research Institute, Valhallavägen 81, 114 28 Stockholm, Sweden)

  • Tomas Lönnqvist

    (IVL Swedish Environmental Research Institute, Valhallavägen 81, 114 28 Stockholm, Sweden)

  • Nilay Elginoz

    (IVL Swedish Environmental Research Institute, Valhallavägen 81, 114 28 Stockholm, Sweden)

  • Julia Granacher

    (Industrial Process and Energy Systems Engineering (IPESE), École Polytechnique Fédérale de Lausanne, 1951 Sion, Switzerland)

  • Pavinee Hasselberg

    (IVL Swedish Environmental Research Institute, Aschebergsgatan 44, 411 33 Gothenburg, Sweden)

  • Fredrik Hedman

    (IVL Swedish Environmental Research Institute, Valhallavägen 81, 114 28 Stockholm, Sweden)

  • Nora Efraimsson

    (IVL Swedish Environmental Research Institute, Aschebergsgatan 44, 411 33 Gothenburg, Sweden)

  • Sofie Johnsson

    (IVL Swedish Environmental Research Institute, Aschebergsgatan 44, 411 33 Gothenburg, Sweden)

  • Sofia Poulikidou

    (IVL Swedish Environmental Research Institute, Aschebergsgatan 44, 411 33 Gothenburg, Sweden)

  • Sahar Safarian

    (IVL Swedish Environmental Research Institute, Aschebergsgatan 44, 411 33 Gothenburg, Sweden)

  • Kåre Tjus

    (IVL Swedish Environmental Research Institute, Valhallavägen 81, 114 28 Stockholm, Sweden)

Abstract

A techno-economic assessment and environmental and social sustainability assessments of novel Fischer–Tropsch (FT) biodiesel production from the wet and dry gasification of biomass-based residue streams (bark and black liquor from pulp production) for transport applications are presented. A typical French kraft pulp mill serves as the reference case and large-scale biofuel-production-process integration is explored. Relatively low greenhouse gas emission levels can be obtained for the FT biodiesel (total span: 16–83 g CO 2 eq/MJ in the assessed EU countries). Actual process configuration and low-carbon electricity are critical for overall performance. The site-specific social assessment indicates an overall positive social effect for local community, value chain actors, and society. Important social aspects include (i) job creation potential, (ii) economic development through job creation and new business opportunities, and (iii) health and safety for workers. For social risks, the country of implementation is important. Heat and electricity use are the key contributors to social impacts. The estimated production cost for biobased crude oil is about 13 €/GJ, and it is 14 €/GJ (0.47 €/L or 50 €/MWh) for the FT biodiesel. However, there are uncertainties, i.e., due to the low technology readiness level of the gasification technologies, especially wet gasification. However, the studied concept may provide substantial GHG reduction compared to fossil diesel at a relatively low cost.

Suggested Citation

  • Julia Hansson & Sofia Klugman & Tomas Lönnqvist & Nilay Elginoz & Julia Granacher & Pavinee Hasselberg & Fredrik Hedman & Nora Efraimsson & Sofie Johnsson & Sofia Poulikidou & Sahar Safarian & Kåre Tj, 2023. "Biodiesel from Bark and Black Liquor—A Techno-Economic, Social, and Environmental Assessment," Energies, MDPI, vol. 17(1), pages 1-22, December.
    • Handle: RePEc:gam:jeners:v:17:y:2023:i:1:p:99-:d:1306310
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    References listed on IDEAS

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    4. Mo, Wenyu & Xiong, Zhe & Leong, Huiyi & Gong, Xi & Jiang, Long & Xu, Jun & Su, Sheng & Hu, Song & Wang, Yi & Xiang, Jun, 2022. "Processes simulation and environmental evaluation of biofuel production via Co-pyrolysis of tropical agricultural waste," Energy, Elsevier, vol. 242(C).
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