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Life Cycle Assessment of PLA Products: A Systematic Literature Review

Author

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  • Ana Fonseca

    (Associação CECOLAB—Collaborative Laboratory towards Circular Economy, Rua Nossa Senhora da Conceição, nº 2, Lagares da Beira, 3405-155 Oliveira do Hospital, Portugal)

  • Edgar Ramalho

    (Associação CECOLAB—Collaborative Laboratory towards Circular Economy, Rua Nossa Senhora da Conceição, nº 2, Lagares da Beira, 3405-155 Oliveira do Hospital, Portugal)

  • Ana Gouveia

    (Associação CECOLAB—Collaborative Laboratory towards Circular Economy, Rua Nossa Senhora da Conceição, nº 2, Lagares da Beira, 3405-155 Oliveira do Hospital, Portugal)

  • Filipa Figueiredo

    (Associação CECOLAB—Collaborative Laboratory towards Circular Economy, Rua Nossa Senhora da Conceição, nº 2, Lagares da Beira, 3405-155 Oliveira do Hospital, Portugal
    Associação BLC3—Campus de Tecnologia e Inovação, Centre Bio R&D Unit, Rua Nossa Senhora da Conceição, nº 2, 3405-155 Oliveira do Hospital, Portugal)

  • João Nunes

    (Associação BLC3—Campus de Tecnologia e Inovação, Centre Bio R&D Unit, Rua Nossa Senhora da Conceição, nº 2, 3405-155 Oliveira do Hospital, Portugal)

Abstract

The rising concerns about environmental harm and pollution create a setting for the search for better materials to produce more sustainable products. Plastic plays a crucial role in modern life and most of the commonly used are of fossil origin. Polylactic Acid (PLA) has been appointed as a more sustainable alternative, due to its origins in biodegradable raw materials. This paper aims to review scientific research, where Life Cycle Assessment (LCA) is performed on this material, in order to further understand the environmental impacts and to assess whether it is a more viable option when compared to the most commonly used plastics. A systematic literature review of 81 LCA studies focused on the LCA of PLA products was conducted. An assessment of key aspects, including the system boundaries, raw materials origin, and quantitative analysis of five environmental impact categories was performed. In this comparative analysis, in addition to presenting the results for PLA products, they are also compared with other fossil-based plastics. This leads to the conclusion that PLA has higher environmental impacts on Marine Eutrophication, Freshwater Eutrophication, and Human Toxicity, which are mainly related to the agricultural phase of growing the raw materials for PLA production. For Climate Change, Polystyrene (PS) presents the higher Greenhouse Gas (GHG) emissions, and for the Ozone Layer Depletion category, Polyethylene terephthalate (PET) presents the higher impact. PLA is a solution to replace fossil plastics. However, the use of alternative biomass sources without competition with the feed and food sector could be a key option for biobased materials production, with lower environmental and socioeconomic impacts. This will be a pathway to reduce environmental impacts in categories such as climate change, marine eutrophication, and freshwater eutrophication.

Suggested Citation

  • Ana Fonseca & Edgar Ramalho & Ana Gouveia & Filipa Figueiredo & João Nunes, 2023. "Life Cycle Assessment of PLA Products: A Systematic Literature Review," Sustainability, MDPI, vol. 15(16), pages 1-19, August.
  • Handle: RePEc:gam:jsusta:v:15:y:2023:i:16:p:12470-:d:1218633
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    1. Hamed Sadaghian & Behrooz Dadmand & Majid Pourbaba & Soheil Jabbari & Jung Heum Yeon, 2023. "The Effect of Size on the Mechanical Properties of 3D-Printed Polymers," Sustainability, MDPI, vol. 16(1), pages 1-21, December.
    2. Lostado-Lorza, Rubén & Corral-Bobadilla, Marina & Sabando-Fraile, Celia & Somovilla-Gómez, Fátima, 2024. "Enhancing thermal conductivity of sinterized bronze (Cu89/Sn11) by 3D printing and thermal post-treatment: Energy efficiency and environmental sustainability," Energy, Elsevier, vol. 299(C).
    3. Katerina Synani & Konstadinos Abeliotis & Kelly Velonia & Angeliki Maragkaki & Thrassyvoulos Manios & Katia Lasaridi, 2024. "Environmental Impact and Sustainability of Bioplastic Production from Food Waste," Sustainability, MDPI, vol. 16(13), pages 1-20, June.
    4. Federico Rotini & Lorenzo Fiorineschi & Leonardo Conti & Giuseppe Rossi, 2024. "Investigating Polylactic Acid Foam–Plant Fiber Composites for Sound Absorption and Insulation," Sustainability, MDPI, vol. 16(16), pages 1-16, August.

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