Showing 61–80 of 534
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180 Downloads
2025-03
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Evaluating LCA Approaches and Methodologies for Renewable Carbon Sources Report 1 of 3: Renewable Carbon in LCA Guidelines – RCI Report (March 2025)
Markets & Economy, Policy, Sustainability & Health
145 Pages
1280 Downloads
1280 Downloads
2025-03
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DownloadsRenewable Carbon in LCA Guidelines (146 pages) evaluates methodological choices which impact LCAs for products containing renewable carbon in existing LCA frameworks and guidelines. The study specifically examines the similarities and differences in the methodological choices of guidelines, as well as the implications of these methodological aspects on the resulting LCA outcomes.The frameworks were selected based on their relevance and legitimacy in the industry, academia and policy field, and include: ISO 14040/44, ISO 14067, GHG Protocol Product Standard, PACT’s Pathfinder Framework, the PCF Guideline for the chemical industry by Together for Sustainability (TfS), EPD for the construction industry – ISO 14025 and EN 15804, the Renewable Energy Directive, the Product Environmental Footprint (PEF) and the JRC’s plastics LCA methodology. One field with a particularly large methodological freedom is recycling.
This report is the first report of a larger RCI project on LCA methodology, which includes two additional publications:
Report 2 of 3 – Renewable Carbon in Recycling Situations
Report 3 of 3 – Non-technical SummaryPlease find these additional reports by following the respective links at the bottom of this page.
DOI No.: https://doi.org/10.52548/VCYM7822
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Evaluating LCA Approaches and Methodologies for Renewable Carbon Sources Report 2 of 3: Renewable Carbon in Recycling Situations – RCI Report (March 2025)
Markets & Economy, Policy, Sustainability & Health
37 Pages
926 Downloads
926 Downloads
2025-03
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DownloadsThis report focuses on renewable carbon in recycling scenarios and the key challenges in LCA and carbon footprint assessments. It examines system boundaries, allocation methods, and biogenic carbon accounting approaches, highlighting their influence on sustainability evaluations. The report emphasises the cut-off and avoided-burden approaches for recycling while recommending the -1/+1 method for biogenic carbon transparency. However, it also identifies contradictions between LCA results and broader sustainability goals, such as the EU waste hierarchy, which prioritises recycling. To address these inconsistencies, the report suggests integrating LCA with additional sustainability metrics like land use and recyclability. Ultimately, refining these methodologies will enhance the accuracy and reliability of environmental assessments for bio-based and recycled materials.
This report is the second report of a larger RCI project on LCA methodology, which includes two additional publications:
Report 1 of 3 – Renewable Carbon in LCA Guidelines
Report 3 of 3 – Non-technical SummaryPlease find these additional reports by following the respective links at the bottom of this page.
DOI No.: https://doi.org/10.52548/QTVU8642
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Evaluating LCA Approaches and Methodologies for Renewable Carbon Sources Report 3 of 3: Non-technical Summary – RCI Report (March 2025)
Markets & Economy, Policy, Sustainability & Health
15 Pages
1083 Downloads
1083 Downloads
2025-03
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DownloadsThis Non-technical Summary (15 pages),highlights main insights into the project results and states key take-aways for policy-makers.
It compares several frameworks, such as ISO 14040, Product Environmental Footprint (PEF), and GHG Protocol, finding both commonalities and critical differences in areas like biogenic carbon accounting and recycling assessment. The study identifies significant methodological flexibility in existing frameworks, leading to inconsistencies in LCA results and challenges in standardisation. Key issues include differing treatment of carbon capture and utilisation (CCU), direct air capture (DAC), and allocation of environmental burdens in multifunctional processes. Policy recommendations emphasise the need for harmonisation, improved biogenic carbon accounting, and clear guidance on emerging technologies like DAC and mass balance attribution. Overall, the study calls for refining LCA methodologies to ensure fair comparison between renewable and fossil-based carbon solutions.
This report is the third report of a larger RCI project on LCA methodology, which includes two additional publications:
Report 1 of 3 – Renewable Carbon in LCA Guidelines
Report 2 of 3 – Renewable Carbon in Recycling SituationsPlease find these additional reports by following the respective links at the bottom of this page.
DOI No.: https://doi.org/10.52548/ZEKY1803
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Core Elements of LCA for Renewable Carbon Solutions (PNG)
Policy, Sustainability & Health
1 Page
134 Downloads
134 Downloads
2025-03
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DownloadsSeveral methodological aspects are relevant for LCA and carbon footprints in general and for products containing renewable carbon in particular.
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SUITED approach: SUstainable Integrated TEchnology Development (PNG)
Markets & Economy, Sustainability & Health
1 Page
27 Downloads
27 Downloads
2025-02
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27
DownloadsStart the ecological and economic evaluation of your technology as early as possible:
- Continuous optimization process
- Sustainability integrated technology development
- SUITED as a tool for technology improvement
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Bio-based Polymers Worldwide (PDF)
Markets & Economy, Policy, Sustainability & Health
5 Pages
888 Downloads
888 Downloads
2025-02
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DownloadsExpert insight into capacity developments, investments and new policy frameworks:- Firstly, global capacity for bio-based polymers will grow strongly over the next five years, much faster than for fossil-based polymers
- Secondly, investments in new capacity will take place in China, Europe, the Middle East, and the US
- Thirdly, investment in bio-based polymer capacities is mainly driven by policy frameworks that create demand.
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Sustainable textiles – the way forward (PDF)
Markets & Economy, Sustainability & Health
6 Pages
622 Downloads
622 Downloads
2025-02
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DownloadsHigh reliance on fossil carbon, associated high carbon footprint, low recycling rates and microplastics:Several solutions are emerging. The article analyses the evolution of the textile industry from 1960 to today, fossil and bio-based as well as recycling.The future of sustainable textilesThe sustainable textile industry of the future will be built on a foundation of cotton fibres and fast-growing cellulose fibres, later strongly supported by bio- and CO2-based synthetic fibres (“biosynthetics”) and high recycling rates for all types of fibres. This combination can eventually replace most fossil-based synthetic fibres by 2050. -
Global Major Fibre Types by Production in % (PNG)
Markets & Economy, Sustainability & Health
1 Page
48 Downloads
48 Downloads
2025-02
FREE
48
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Textile-Waste-Generation-Collection-and-Treatment-in-Europe-2020 (PNG)
Markets & Economy, Sustainability & Health
1 Page
54 Downloads
54 Downloads
2025-02
FREE
54
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Bio-based-Polymer-Production-and-Bio-based-shares-2024 (PNG)
Markets & Economy, Policy, Sustainability & Health
1 Page
191 Downloads
191 Downloads
2025-02
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191
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Global-Production-Capacities-of-Bio-based-Polymers-per-Region-2024 (PNG)
Markets & Economy, Policy, Sustainability & Health
1 Page
48 Downloads
48 Downloads
2025-02
FREE
48
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Supply and Demand of Agriculture Biomass Worldwide 2050 – Graphic (PNG)
Markets & Economy, Policy, Sustainability & Health
1 Page
49 Downloads
49 Downloads
2025-02
FREE
49
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Wood Demand in the Green LRD Scenario Worldwide 2050 – Graphic (PNG)
Markets & Economy, Policy, Sustainability & Health
1 Page
17 Downloads
17 Downloads
2025-02
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17
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Supply and Demand of Agricultural Biomass in the EU 2050 in HT +5 Scenario – Graphic (PNG)
Markets & Economy, Policy, Sustainability & Health
1 Page
33 Downloads
33 Downloads
2025-02
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33
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Supply and Demand of Agricultural Biomass Worldwide 2050 in HT +10 Scenario – Graphic (PNG)
Markets & Economy, Policy, Sustainability & Health
1 Page
47 Downloads
47 Downloads
2025-02
FREE
47
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Wood Supply in the Green LRD Scenario in 2050 – Graphic (PNG)
Markets & Economy, Policy, Sustainability & Health
1 Page
16 Downloads
16 Downloads
2025-02
FREE
16
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Share of Different Types of Biomass Worldwide 2023-2050 – Graphic (PNG)
Markets & Economy, Policy, Sustainability & Health
1 Page
72 Downloads
72 Downloads
2025-02
FREE
72
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Share-of-Different-Types-of-Biomass-EU-2023–2050 – Graphic (PNG)
Markets & Economy, Policy, Sustainability & Health
1 Page
41 Downloads
41 Downloads
2025-02
FREE
41
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Supply and Demand of Agriculture Biomass in the EU 2050 – Graphic (PNG)
Markets & Economy, Policy, Sustainability & Health
1 Page
44 Downloads
44 Downloads
2025-02
FREE
44
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