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Background Document to RCI/BIC Report „Measuring the Use of Biogenic Feedstocks in the Global and EU Chemical Industry in 2023″ (PDF)
Markets & Economy, Policy
16 Pages
125 Downloads
125 Downloads
2025-05
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DownloadsThis background document is a supplement to the main publication: “Is there Enough Biomass to Defossilise the Chemicals and Derived Materials Sector by 2050? – A Joint BIC and RCI Scientific Background Report“.
The report provides a comprehensive assessment of biogenic feedstock usage in the global and EU chemical industries for 2023, detailing sources like starch, sugar, vegetable oils, animal fats and more.
Globally, the chemical industry used 7.3 million tonnes of starch and 4.0 million tonnes of sugar for bioethanol-derived chemicals, while the EU used 480,000 and 150,000 tonnes respectively. Vegetable oils accounted for the highest single feedstock usage globally at 17.6 million tonnes, and 1.6 million tonnes in the EU. Other significant feedstocks include glycerol (3.4 million tonnes globally, 490,000 tonnes in the EU) and natural rubber (14 million tonnes globally, 1.1 million tonnes in the EU).
The data aims to establish a baseline for future biomass modeling and highlights discrepancies and assumptions due to data gaps.
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A Deep Dive into the Agriculture sector – „Is There Enough Biomass to Defossilise the Chemicals and Derived Materials Sector by 2050?“ (PDF)
Markets & Economy, Policy, Sustainability & Health
41 Pages
618 Downloads
618 Downloads
2025-05
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DownloadsThis presentation is a supplement to the main publication: “Is there Enough Biomass to Defossilise the Chemicals and Derived Materials Sector by 2050? – A Joint BIC and RCI Scientific Background Report“ and provides deeper insights into the agriculture sector.
The presentation analyses the potential of sustainable agricultural biomass to meet future carbon demand in the global and EU chemical industries by 2050.
It uses the CAPRI model to simulate various land-use and technological scenarios, finding that only the Green High Tech (HT) scenarios can meet the projected biomass needs while fulfilling food, feed, and fuel demands. Key feedstocks include starch, sugar, and oil crops, with starch having the most significant expansion potential. Residues and biowaste play a limited but important role, especially when supplemented by advanced technologies and logistical improvements. External factors such as reduced meat consumption, Ukraine’s potential EU accession and innovations like agro-photovoltaics and urban farming also influence biomass availability.
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A Deep Dive into the Forestry sector – „Is There Enough Biomass to Defossilise the Chemicals and Derived Materials Sector by 2050?” (PDF)
Markets & Economy, Policy, Sustainability & Health
46 Pages
591 Downloads
591 Downloads
2025-05
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DownloadsThis presentation is a supplement to the main publication: “Is there Enough Biomass to Defossilise the Chemicals and Derived Materials Sector by 2050? – A Joint BIC and RCI Scientific Background Report“ and provides deeper insights into the forestry sector.
The TiMBA model evaluates the global forest products market under three scenarios—Business-as-Usual (BAU), Green Low Resource Depletion (LRD), and Green High Tech (HT)—to project wood production, trade, and forest development from 2020 to 2050. Under all scenarios, global forest area increases, especially in Asia, with the LRD and HT scenarios showing stronger forest protection due to deforestation bans and improved forest management. Industrial roundwood production rises by 38% globally by 2050, with Asia leading the growth, and highest demand seen in the LRD scenario, particularly for new applications like dissolving pulp and cellulose derivatives. Despite increased production, forest stocks remain stable or improve slightly due to technological efficiency, increased recycling, and reduced raw material inputs. However, competition for wood residues among biorefineries, pellet production, and sustainable aviation fuels poses challenges to meeting future biomass demand sustainably.
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Policy Proposals for Facilitating the Transition to Renewable Carbon – RCI Report (April 2025)
Markets & Economy, Policy, Sustainability & Health, Technology
70 Pages
1357 Downloads
1357 Downloads
2025-04
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DownloadsThe report outlines a strategic roadmap for transforming Europe’s chemical industry by transitioning from fossil-based to renewable carbon sources. It highlights the industry’s current crisis which is driven by global competition, high energy costs, and regulatory pressure, and stresses the urgency of reducing dependence on fossil feedstocks. The report aruges that the transition to renewable carbon is not just about environmental sustainability; it is about securing Europe’s industrial future and maintaining its global competitiveness in a rapidly changing world. By pioneering renewable carbon technologies, the EU can unlock economic benefits and unleash its innovation potential while advancing climate neutrality ambitions.
The Renewable Carbon Initiative (RCI) proposes ten comprehensive policy measures including mandatory renewable carbon targets, adaptation of emissions trading systems, and financial support mechanisms. These proposals aim to create market demand, drive innovation and build industrial resilience. Key enablers include harmonised standards, robust certification, infrastructure development, and stakeholder engagement.
DOI No.: https://doi.org/10.52548/DZRU4577
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Overview of RCIs Policy Proposals (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
60 Downloads
60 Downloads
2025-04
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Renewable Energy and Defossilisation (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
45 Downloads
45 Downloads
2025-04
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Trackling the European Implementation Gap for Renewable Carbon Solutions (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
48 Downloads
48 Downloads
2025-04
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infoDas Rheinische Revier soll im Zuge des Kohleausstiegs zu einer „Modellregion Bioökonomie“ entwickelt werden. Der dadurch steigende Biomassebedarf könnte negative Auswertungen haben und muss daher gründlich untersucht werden. Aus diesem Grund hat das LANUV mit Unterstützung des nova-Instituts im Zeitraum vom 01.03.2023 bis 28.02.2025 das Projekt „Biomassepotenziale Rheinisches Revier“ durchgeführt. Ziel des Projekts war es, Grundlagen und Instrumente zu schaffen, um zu einer nachhaltigen Nutzung von Biomasse aus der Land- und Ernährungswirtschaft in der Region beizutragen.
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Cellulose Fibres Conference 2025 (Proceedings, PDF)
Markets & Economy, Policy, Sustainability & Health, Technology
2025-03
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cartThe Cellulose Fibres Conference 2025 – New with Biosynthetics! (https://cellulose-fibres.eu, 12-13 March 2025, Cologne, hybrid) covered the entire value chain of the sustainable textile industry, from lignocellulose, pulp, cellulose fibres such as rayon, viscose, modal or lyocell and new developments to a wide range of applications:
Textiles from renewable fibres, non-wovens such as wet wipes, as well as areas such as composites, hygiene, packaging or nano cellulose in the food industry. This year, for the first time, the conference included a dedicated session on biosynthetics – a promising area to complement the alternative for bio-based textiles. Deep insights have been offered into the future of cellulose fibres, which fits perfectly with the current shift towards circular economy, recycling and sustainable carbon cycles.The Cellulose Fibres Conference Proceedings include all released conference presentations, the conference journal, sponsor documents and the conference press release.
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Bio-based Non Biodegradable Polymers Evolution of Worldwide Prod Capacities 2029 (PNG)
Markets & Economy
1 Page
146 Downloads
146 Downloads
2025-03
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Bio-based Biodegradable Polymers Evolution of Worldwide Production Capacities 2029 (PNG)
Markets & Economy
1 Page
172 Downloads
172 Downloads
2025-03
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Bio-based polymers – Evolution of worldwide production capacities from 2018 to 2029 (PNG)
Markets & Economy
1 Page
122 Downloads
122 Downloads
2025-03
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176 Downloads
2025-03
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Global Production Capacities of Bio-based Polymers per region 2024 (PNG)
Markets & Economy
1 Page
86 Downloads
86 Downloads
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180 Downloads
2025-03
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224 Downloads
2025-03
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135 Downloads
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75 Downloads
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Shares of the Produced Bio-based Polymers in Different Market Segments in 2024 (PNG)
Markets & Economy
1 Page
139 Downloads
139 Downloads
2025-03
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Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2024–2029 (PDF)
NewMarkets & Economy
434 Pages
2025-03
3,000 € – 10,000 €Price range: 3,000 € through 10,000 € ex. tax
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licence2024 was a respectable year for bio-based polymers, with an overall expected CAGR of 13 % to 2029. Overall, bio-based biodegradable polymers have large installed capacities with an expected CAGR of 17 % to 2029, but the current average capacity utilisation is moderate at 65 %. In contrast, bio-based non-biodegradable polymers have a much higher utilisation rate of 90 %, but will only grow by 10 % to 2029.
Epoxy resin and PUR production is growing moderately at 9 and 8 %, respectively, while PP and cyclic APC capacities are increasing by 30 %. Despite a decline in production of biodegradables, especially for PLA in Asia, capacities have increased by 40 %. The same applies to PHA capacities. Commercial newcomers such as casein polymers and PEF recorded a rise in production capacity and are expected to continue to grow significantly until 2029.
DOI No.: https://doi.org/10.52548/UMTR4695














