Showing 41–60 of 324
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Traffic Light Sustainability Risk Evaluation of Bio-based Feedstocks (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
213 Downloads213 Downloads
2023-06
FREE
213
Downloads -
Corn and its Applications (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
93 Downloads93 Downloads
2023-06
FREE
93
Downloads -
Rapeseed and its Applications (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
65 Downloads65 Downloads
2023-06
FREE
65
Downloads -
Yield of Fermentable Sugars (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
106 Downloads106 Downloads
2023-06
FREE
106
Downloads -
Graphic of the scientific paper „The Use of Food and Feed Crops for Bio-based Materials and the Related Effects on Food Security“ (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
84 Downloads84 Downloads
2023-06
FREE
84
DownloadsPromoting Evidence-based Debates and Recognising Potential Benefits
The graphic shows the multiple potential benefits of using food and feed crops for bio-based materials, in terms of climate, land productivity, environment, farmers, market stability, feed security and food security.
- The climate wins – Bio-based materials are part of the solution to achieve climate change mitigation.
- Land productivity wins – The competition between applications is not for the type of crop grown, but for the land
- The environment wins – due to increased resource efficiency and productivity of food and feed crops.
- Farmers win – because they have more options for selling stock to different markets.
- Market stability wins – due to increased global availability of food and feed crops.
- Feed security wins – due to the high value of the protein-rich co-products of food and feed crops.
- Food security wins – due to the increased overall availability of edible crops that can be stored and flexibly distributed.
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RCI’s scientific background report: “The use of food and feed crops for bio-based materials and the related effects on food security – Promoting evidence-based debates and recognising potential benefits” (June 2023) Long Version
Markets & Economy, Policy, Sustainability & Health, Technology
36 Pages
1151 Downloads1151 Downloads
2023-06
FREE
1151
DownloadsPromoting Evidence-based Debates and Recognising Potential Benefits
This scientific paper highlights new insights into a hotly debated topic and urges for careful and evidence-based debates.
The paper aims to show that the well-known biomass debate is flawed, subjective and not fully based on evidence. What is detrimental to food security are, according to the World Food Programme in 2023, climate change, conflict, extreme inequalities in wealth distribution, heavy dependence on food imports from industrial countries, overconsumption of meat, losses along the value chain and the impact of the COVID pandemic. Competition between biomass uses is not mentioned among the relevant causes.
The use of biomass for industrial applications, does have the potential to replace fossil feedstocks and thus contribute to the urgently needed reduction of fossil carbon emissions into our atmosphere to mitigate climate change.
While not denying the dire need to combat world hunger, the authors of the paper argue that using food and feed crops for chemicals and materials will not necessarily exacerbate food insecurity, and in fact has the potential to cause multiple benefits for local and global food security, climate mitigation and other factors:
- The climate wins – Bio-based materials are part of the solution to achieve climate change mitigation.
- Land productivity wins – The competition between applications is not for the type of crop grown, but for the land.
- The environment wins – due to increased resource efficiency and productivity of food and feed crops.
- Farmers win – because they have more options for selling stock to different markets.
- Market stability wins – due to increased global availability of food and feed crops.
- Feed security wins – due to the high value of the protein-rich co-products of food and feed crops.
- Food security wins – due to the increased overall availability of edible crops that can be stored and flexibly distributed.
DOI No.: https://doi.org/10.52548/WQXU7327
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Wholesale Prices of Bioethanol and Wheat (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
64 Downloads64 Downloads
2023-06
FREE
64
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Global Harvested Agricultural and Grazed Biomass Demand by Sectors (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
104 Downloads104 Downloads
2023-06
FREE
104
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Embedded Carbon Demand for Main Sector (PNG)
Markets & Economy, Policy, Sustainability & Health, Technology
1 Page
99 Downloads99 Downloads
2023-06
FREE
99
Downloads -
Renewable Materials Conference 2023 Proceedings
Markets & Economy, Policy, Sustainability & Health, Technology
2023-06
200 € ex. tax
Plus 19% MwSt.Press
release Add to
cartThe proceedings of the Renewable Materials Conference 2023 (23-25 May 2023, https://renewable-materials.eu) contain all released presentations of three conference days, the conference journal, and the press release of the three winners of the Innovation Award “Renewable Material of the Year 2023“.
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Conference on CO2-based Fuels and Chemicals 2023 Proceedings
Markets & Economy, Policy, Sustainability & Health, Technology
2023-05
150 € ex. tax
Plus 19% MwSt.Press
release Add to
cartThe proceedings of the Conference on CO2-based Fuels and Chemicals (19-20 April 2023, https://co2-chemistry.eu) contain all released presentations, the conference journal, and the press release of the three winners of the Innovation Award “Best CO2 Utilisation 2023″.
Press Release: https://renewable-carbon.eu/news/smart-carbon-capture-and-utilisation-ccu-technologies-and-materials-defossilise-the-economy
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Carbon Dioxide (CO₂) as Feedstock for Chemicals, Advanced Fuels, Polymers, Proteins and Minerals (PDF)
NewMarkets & Economy, Technology
242 Pages
2023-04
2,500 € – 10,000 € ex. tax
Plus 19% MwSt.Press
release Select
licenceNew report on the use of CO₂ for chemicals, advanced fuels, polymers, proteins and minerals by nova-Institute – A deep and comprehensive insight into the evolving technologies, trends and the dynamically growing market of CO₂ transformation and utilisation.
Several successfully implemented technologies are now in commercial use, and many more are at the laboratory and pilot stage. A current total production capacity of novel CO₂-based products of about 1.3 Mt/a in 2022 is observed. The production capacity in 2022 is dominated by the production of CO₂-based aromatic polycarbonates, ethanol from captured CO/CO₂, aliphatic polycarbonate and methanol. By 2030, the capacity outlook for CO₂-based products is expected to exceed 6 Mt/a of CO₂-based products. High dynamic growth is observed for methanol projects, methane plants, ethanol and hydrocarbons – the latter especially for the aviation sector. The potential of CCU has been recognised by several global brands which are already expanding their feedstock portfolio. However, in Europe, investments and prospects for CO₂ utilisation are largely undermined by a lack of political support. In contrast, we see supportive policies in China as well as in the US with the Inflation Reduction Act. Such smart policies are needed to bridge the gap between now and 2050 for companies to remain competitive in the sustainable transformation.nova-Institute’s new report examines this renewable carbon source in detail: Which products can be made from CO₂, and by which processes? To which extend have the technologies already been developed and implemented in pilot, demonstration and commercial plants? Which companies are working on technologies to uses CO₂ as a feedstock? What are the trends in CO₂ utilisation in the coming years?
This report addresses the fuel, chemical and materials industries, brands, technology scouts, investors, and policy makers. The report provides 240 pages of information on CO₂ utilisation. All the 116 companies mentioned are described in detailed profiles.
DOI No.: https://doi.org/10.52548/HKBS8158
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Carbon Dioxide (CO₂) as Feedstock for Chemicals, Advanced Fuels, Polymers, Proteins and Minerals – Short Version (PDF)
Markets & Economy, Technology
18 Pages
773 Downloads773 Downloads
2023-04
FREE
773
DownloadsNew report on the use of CO₂ for chemicals, advanced fuels, polymers, proteins and minerals by nova-Institute – A deep and comprehensive insight into the evolving technologies, trends and the dynamically growing market of CO₂ transformation and utilisation.
Several successfully implemented technologies are now in commercial use, and many more are at the laboratory and pilot stage. A current total production capacity of novel CO₂-based products of about 1.3 Mt/a in 2022 is observed. The production capacity in 2022 is dominated by the production of CO₂-based aromatic polycarbonates, ethanol from captured CO/CO₂, aliphatic polycarbonate and methanol. By 2030, the capacity outlook for CO₂-based products is expected to exceed 6 Mt/a of CO₂-based products. High dynamic growth is observed for methanol projects, methane plants, ethanol and hydrocarbons – the latter especially for the aviation sector. The potential of CCU has been recognised by several global brands which are already expanding their feedstock portfolio. However, in Europe, investments and prospects for CO₂ utilisation are largely undermined by a lack of political support. In contrast, we see supportive policies in China as well as in the US with the Inflation Reduction Act. Such smart policies are needed to bridge the gap between now and 2050 for companies to remain competitive in the sustainable transformation.nova-Institute’s new report examines this renewable carbon source in detail: Which products can be made from CO₂, and by which processes? To which extend have the technologies already been developed and implemented in pilot, demonstration and commercial plants? Which companies are working on technologies to uses CO₂ as a feedstock? What are the trends in CO₂ utilisation in the coming years?
This report addresses the fuel, chemical and materials industries, brands, technology scouts, investors, and policy makers. The report provides 240 pages of information on CO₂ utilisation. All the 116 companies mentioned are described in detailed profiles.
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Ways to Use CO₂ for Chemicals and Polymers – Graphic (PNG)
Markets & Economy, Technology
1 Page
867 Downloads867 Downloads
2023-04
FREE
Plus 19% MwSt.867
Downloads -
Carbon Dioxide Utilisation and Renewable Energy − Graphic (PNG)
Markets & Economy, Technology
1 Page
1317 Downloads1317 Downloads
2023-04
FREE
1317
Downloads -
nova-Session: “Bio- and CO₂-based Polymers: Production, Trends 2022-2027 and the latest Policy Developments” (Proceedings, PDF)
Markets & Economy, Policy, Sustainability & Health, Technology
2023-03
150 € ex. tax
Plus 19% MwSt.
cartThe download of the proceedings contains all six presentations of the nova-Session (March 2023).
Bio-based and CO2-based Solutions – Where are we heading?
The only way for chemicals and plastics to become sustainable, climate-friendly and part of the circular economy is the complete substitution of fossil carbon with renewable carbon from alternative sources: biomass, CO2 and recycling. We see strong investment in all three sectors, with growth rates far exceeding that of fossil polymers – i.e. fossil polymers are being substituted in the market.
The session will focus on developments in bio- and CO2-based polymers and building blocks: Bio-based polymers are estimated to grow at a CAGR of 14 % from 2022 to 2027. Some examples: Bio-based epoxy resin production is on the rise, PTT regained attractiveness after several years of constant capacities and PE and PP made from bio based naphtha are being further established with growing volumes. Increased capacities for PLA are ongoing, after being sold out in 2019. Current and future expansions for bio based polyamides as well as PHAs are on the horizon. And also, bio-based PET is getting back in the game.
Additionally, the use of CO2 as chemical feedstock for building blocks and polymers has been intensively diversified. Several successfully implemented technologies used at commercial level are in place and many more at the laboratory and pilot phase. Besides the long-established use of CO2 for the synthesis of polycarbonates, also polyurethanes are based on it. The most notable biotechnological conversion pathway of a syngas produces ethanol at commercial scale. Additionally, high interest is also observed in CO2-based methanol and in CO2-based hydrocarbons, which can be used for fuel, chemical and polymers applications. A current total production capacity of these CO2-based products of ca. 1.3 Mt/a in 2022 is observed and a strong increase in capacity is expected by 2027.
The EU policy landscape has seen significant updates in the final weeks of 2022 with the proposed Packaging and Packaging Waste Regulation and the publication of the Policy Framework on bio-based, biodegradable and compostable plastics. How these updates may affect CO2 and bio-based polymers will be addressed in the session.
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Cellulose Fibres Conference 2023 (Proceedings, PDF)
Markets & Economy, Policy, Sustainability & Health, Technology
2023-03
150 € ex. tax
Plus 19% MwSt.Press
release Add to
cartThe unique conference focused on cellulose fibres – in textiles, hygiene products and packaging!
The Cellulose Fibres 2023 Conference Proceedings (https://cellulose-fibres.eu, 8-9 March 2023, Cologne, hybrid) include all released conference presentations, the conference journal, sponsor documents, a Fiber2Fashion Knowledgepaper and the conference press release.
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Bio-based non-biod. polymers – Evolution worldwide production capacities 2018-27 (PNG)
Markets & Economy
1 Page
192 Downloads192 Downloads
2023-02
FREE
192
DownloadsReport on the global bio-based polymer market 2022 – A deep and comprehensive insight into this dynamically growing market
The year 2022 was a promising year for bio-based polymers: Bio-based epoxy resin production is on the rise, PTT regained attractiveness after several years of constant capacities and PE and PP made from bio-based naphtha are being further established with growing volumes. Increased capacities for PLA are ongoing, after being sold out in 2019. Current and future expansions for bio-based polyamides as well as PHAs are on the horizon. And also, bio-based PET is getting back in the game.
DOI No.: https://doi.org/10.52548/CMZD8323
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Bio-based polymers – Evolution of worldwide production capacities from 2018 to 2027 (PNG)
Markets & Economy
1 Page
434 Downloads434 Downloads
2023-02
FREE
434
DownloadsReport on the global bio-based polymer market 2022 – A deep and comprehensive insight into this dynamically growing market
The year 2022 was a promising year for bio-based polymers: Bio-based epoxy resin production is on the rise, PTT regained attractiveness after several years of constant capacities and PE and PP made from bio-based naphtha are being further established with growing volumes. Increased capacities for PLA are ongoing, after being sold out in 2019. Current and future expansions for bio-based polyamides as well as PHAs are on the horizon. And also, bio-based PET is getting back in the game.
DOI No.: https://doi.org/10.52548/CMZD8323
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328 Downloads
2023-02
FREE
328
DownloadsReport on the global bio-based polymer market 2022 – A deep and comprehensive insight into this dynamically growing market
The year 2022 was a promising year for bio-based polymers: Bio-based epoxy resin production is on the rise, PTT regained attractiveness after several years of constant capacities and PE and PP made from bio-based naphtha are being further established with growing volumes. Increased capacities for PLA are ongoing, after being sold out in 2019. Current and future expansions for bio-based polyamides as well as PHAs are on the horizon. And also, bio-based PET is getting back in the game.
DOI No.: https://doi.org/10.52548/CMZD8323