| Autor/s de la URV: | Pozo Fernández, Carlos |
| Autor segons l'article: | Barnosell, I; Pozo, C |
| Adreça de correu electrònic de l'autor: | carlos.pozo@urv.cat carlos.pozo@urv.cat |
| Identificador de l'autor: | 0000-0002-5645-674X 0000-0002-5645-674X |
| Any de publicació de la revista: | 2024-01-01 |
| Tipus de publicació: | Journal Publications |
| Referència de l'ítem segons les normes APA: | Barnosell, I; Pozo, C (2024). The impacts of the European chemical industry on the planetary boundaries. Sustainable Production and Consumption, 44(), 188-207. DOI: 10.1016/j.spc.2023.12.006 |
| Referència a l'article segons font original: | Sustainable Production and Consumption. 44 188-207 |
| Resum: | The European chemical industry plays a crucial role in the economy, manufacturing thousands of products that find applications across many sectors. On the other hand, the sector is also one of the largest energy consumers, and emits significant amounts of greenhouse gases, together with toxic, bioaccumulative and persistent chemicals. Acknowledging the need for a shift towards a greener industry model, this contribution assesses the absolute sustainability level of the chemical sector by contrasting the impacts it causes with the ecological capacity of the planet, as given by the planetary boundaries framework. Results indicate that impacts incurred by the European chemical industry transgress CO2-based thresholds significantly, with burdens on atmospheric CO2 concentration, energy imbalance, and ocean acidification being 15, 16 and 6 times larger than planetary limits. The biosphere integrity boundary, assessed here based on functional diversity, is also transgressed by 3 %. The five chemicals with the highest production volume, namely ammonia, polypropylene, high-density polyethylene, styrene, and benzene, are responsible for around 50 % of impacts in all the planetary boundaries. This suggests that they should be the target of dedicated research and policies. Finally, the study assesses a set of improvement pathways for the European chemical industry to become sustainable. It is found that the deployment of carbon capture and storage technologies to compensate for the greenhouse gases emitted by the sector would allow the chemical industry to meet all the planetary boundaries concurrently, yet burden-shifting would still cause other planetary boundaries to be deteriorated. This evidences the need to employ holistic approaches to assess the wide implications of any solution adopted within or outside the chemical industry. |
| DOI de l'article: | 10.1016/j.spc.2023.12.006 |
| Enllaç font original: | https://www.sciencedirect.com/science/article/pii/S2352550923002816 |
| Versió de l'article dipositat: | info:eu-repo/semantics/publishedVersion |
| Accès a la llicència d'ús: | https://creativecommons.org/licenses/by/3.0/es/ |
| Departament: | Enginyeria Química |
| URL Document de llicència: | https://repositori.urv.cat/ca/proteccio-de-dades/ |
| Àrees temàtiques: | Renewable energy, sustainability and the environment Industrial and manufacturing engineering Green & sustainable science & technology Environmental studies Environmental engineering Environmental chemistry Ciencias sociales Ciências ambientais Administração pública e de empresas, ciências contábeis e turismo |
| Paraules clau: | Tipping points Technologies Sustainability Planetary boundaries Life-cycle assessment Life cycle assessment Lca Framework Footprints Environmental impacts Decision-making Climate change Chemical industry Carbon capture Carbon Absolute sustainability |
| Entitat: | Universitat Rovira i Virgili |
| Data d'alta del registre: | 2026-05-09 |
| Descripció: | The European chemical industry plays a crucial role in the economy, manufacturing thousands of products that find applications across many sectors. On the other hand, the sector is also one of the largest energy consumers, and emits significant amounts of greenhouse gases, together with toxic, bioaccumulative and persistent chemicals. Acknowledging the need for a shift towards a greener industry model, this contribution assesses the absolute sustainability level of the chemical sector by contrasting the impacts it causes with the ecological capacity of the planet, as given by the planetary boundaries framework. Results indicate that impacts incurred by the European chemical industry transgress CO2-based thresholds significantly, with burdens on atmospheric CO2 concentration, energy imbalance, and ocean acidification being 15, 16 and 6 times larger than planetary limits. The biosphere integrity boundary, assessed here based on functional diversity, is also transgressed by 3 %. The five chemicals with the highest production volume, namely ammonia, polypropylene, high-density polyethylene, styrene, and benzene, are responsible for around 50 % of impacts in all the planetary boundaries. This suggests that they should be the target of dedicated research and policies. Finally, the study assesses a set of improvement pathways for the European chemical industry to become sustainable. It is found that the deployment of carbon capture and storage technologies to compensate for the greenhouse gases emitted by the sector would allow the chemical industry to meet all the planetary boundaries concurrently, yet burden-shifting would still cause other planetary boundaries to be deteriorated. This evidences the need to employ holistic approaches to assess the wide implications of any so |
| Títol: | The impacts of the European chemical industry on the planetary boundaries |
| Tipus: | Journal Publications |
| Coautor: | Universitat Rovira i Virgili |
| Matèria: | Environmental Chemistry,Environmental Engineering,Environmental Studies,Green & Sustainable Science & Technology,Industrial and Manufacturing Engineering,Renewable Energy, Sustainability and the Environment Tipping points Technologies Sustainability Planetary boundaries Life-cycle assessment Life cycle assessment Lca Framework Footprints Environmental impacts Decision-making Climate change Chemical industry Carbon capture Carbon Absolute sustainability Renewable energy, sustainability and the environment Industrial and manufacturing engineering Green & sustainable science & technology Environmental studies Environmental engineering Environmental chemistry Ciencias sociales Ciências ambientais Administração pública e de empresas, ciências contábeis e turismo |
| Data: | 2024-01-01 |
| Idioma: | en |
| Autor: | Barnosell, I Pozo, C |
| Drets: | info:eu-repo/semantics/openAccess |
| Cerca el teu registre a: | ![]() |
| Fitxer | Descripció | Format | |
|---|---|---|---|
| DocumentPrincipal | DocumentPrincipal | application/pdf |
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