Showing 81–100 of 142

  • 22 04 28 ccu based resource supply for the chemical industry thumbnail

    CCU-based Resource Supply for the Chemical Industry (PNG)

    Sustainability & Health, Technology

    1 Page
    254 Downloads

    2022-05

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    It is a plausible scenario to assign methanol (CHOH) a central role in supplying the chemical industry of the future. Already today, methanol plays an important role in the chemical industry, being one of the most established commodities.

    CCU-based process route for production of methanol includes production of hydrogen via electrolysis, CO capture from the atmosphere or from industrial point sources, and the hydrogenation reaction. Electricity demand for these processes is represented by red arrows. Above the arrow, the specific energy demand is stated, below, the contribution of the process to the total electricity demand of 1 t of methanol is stated. Purification and compression of hydrogen are neglected. For CO hydrogenation, a complete reaction is assumed.

  • 22 04 28 co2 emissions from embedded carbon in chemicals thumbnail

    CO₂ Emissions From Embedded Carbon in Chemicals (PNG)

    Sustainability & Health, Technology

    1 Page
    305 Downloads

    2022-05

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    When fossil feedstock is used, the fossil-based embedded carbon contained in chemicals and materials is emitted to the atmosphere at their end of life, assuming complete oxidation (e.g. through combustion or (bio)degradation).

    When using CCU-based feedstock to replace the fossil feedstock, at the end of life, no additional carbon (or CO2, respectively) is emitted to the air because it was captured from the air (or from point sources) before through carbon capture. Only the electricity demand for CCU-based feedstock production causes CO2 emissions.

  • 22 04 01 emissions reduction potential for replacing fossil feedstock with ccu based methanol thumbnail

    Emission Reduction Potential for Replacing Fossil Feedstock with CCU-based Methanol (PNG)

    Sustainability & Health, Technology

    1 Page
    198 Downloads

    2022-05

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    At end of life, carbon embedded in chemicals and derived materials is released to the atmosphere as CO. In the case of fossil-based feedstock, this contributes to global warming. For CCU-based feedstock this is not the case, since all carbon embedded in these products was captured from the air (or from point sources) before through carbon capture. In a simplified model, additional emissions only electricity production for causes emissions for CCU-based feedstock production. Only the use of renewable energy can save emissions.
    The GHG emissions of CCU-based methanol could be 67 to 77 % lower compared to emissions from releasing embedded carbon of fossil fuels, when using current energy supply based on photovoltaics. With improvements in renewable energy production, the reduction could increase to levels between 96 and 100 %.

  • Conference on CO2-based Fuels and Chemicals 2022 Proceedings [Digital]

    Conference on CO2-based Fuels and Chemicals 2022 Proceedings

    Markets & Economy, Policy, Sustainability & Health, Technology


    112 Downloads

    2022-04

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    The proceedings of the Conference on CO2-based Fuels and Chemicals  2022 (23-24 March 2022, https://co2-chemistry.eu) contain 26 presentations, the conference journal, and the press release of the three winners of the Innovation Award “Best CO2 Utilisation 2022“.

     

  • International Conference on Cellulose Fibres 2022 Proceedings [Digital]

    International Conference on Cellulose Fibres 2022 Proceedings

    Markets & Economy, Policy, Sustainability & Health, Technology


    179 Downloads

    2022-02

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    The proceedings of the International Conference on Cellulose Fibres  2022 (2-3 February 2022, https://cellulose-fibres.eu) contain 26 presentations, the conference journal, and the press release of the three winners of the Cellulose Fibre Innovation of the Year 2021 Award!

     

  • 21 10 solutions made from renewable materials biocomposites thumbnail

    Solution made from renewable materials (PDF)

    Markets & Economy, Technology

    2 Pages
    838 Downloads

    2021-11

    FREE

     

    Today, the various biocomposites can be easily used in a wide range of applications and have reached the mass market as an alternative to conventional plastics. The annual growth of biocomposite granulates has been estimated be 5 % by nova-Institut for 2020 to 2028 (CAGR). What are biocomposites? Basically, any material that consists of natural fibres or particles and a binder (e.g., polymer, resin) can be called a biocomposite. Biocomposites are a collective term for natural fibre-reinforced materials that are partly or entirely of biogenic origin. The report shows a full list of all biocomposite granulate producers in Europe.

  • 21 11 10 biodegradable polymers in various environments 1920x1080 thumbnail

    Biodegradable Polymers in Various Environments According to Established Standards and Certification Schemes – Graphic (PNG, Version 2021)

    Sustainability & Health, Technology

    1 Page
    1958 Downloads

    2021-11

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    New updated version of the poster on Biodegradable Polymers in Various Environments According to Established Standards and Certification Schemes

    The popular poster has been once again updated this autumn to depict to most up-to-date status of commercially available polymers which actually biodegrade in accordance with established standards and certification schemes. An additional partner rounds up this team of leading experts in the area of biodegradable polymers.

  • 21 11 18 biodegradable polymers in various environments thumbnail

    Biodegradable Polymers in Various Environments According to Established Standards and Certification Schemes – Graphic (PDF, Version 2021)

    Sustainability & Health, Technology

    1 Page
    3373 Downloads

    2021-11

    FREE

     

    New updated version of the poster on Biodegradable Polymers in Various Environments According to Established Standards and Certification Schemes

    The popular poster has been once again updated this autumn to depict to most up-to-date status of commercially available polymers which actually biodegrade in accordance with established standards and certification schemes. An additional partner rounds up this team of leading experts in the area of biodegradable polymers.

  • biooekonomierevier industrie u verwertung thumbnail

    Studie Bioökonomie: Potenziale im Rheinischen Revier – Industrie und Verwertung (PDF)

    Markets & Economy, Technology

    76 Pages
    119 Downloads

    2021-11

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    Eine Transformation der Wirtschaftsweise mit nachhaltigen, biobasierten Methoden eröffnet der Industrie einmalige Chancen für den Strukturwandel im Rheinischen Revier. Doch wie genau sehen die Beschäftigungseffekte, Umsätze sowie die Relevanz regionaler Industrie-Sektoren für eine biobasierte Wertschöpfung im Einzelnen aus?

    Das nova-Institut hat im Auftrag der Strukturwandelinitiative BioökonomieREVIER hierzu eine Studie vorgelegt. Sie beleuchtet qualitative und quantitative Potenziale der Industrien in der Region. Diese erste Bestandsaufnahme zeigt, dass die regionale Sektorenvielfalt förderlich sein wird für die Etablierung neuer, branchenübergreifender Wertschöpfungsketten.

  • biooekonomierevier industrie u verwertung nova beschaeftigte region nach sektor thumbnail

    Bioökonomie-Potenziale im Rheinischen Revier – Industriebeschäftige nach Sektor (JPG)

    Markets & Economy, Technology

    1 Page
    50 Downloads

    2021-11

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  • biooekonomierevier industrie u verwertung nova beschaeftigte umsatz betriebe thumbnail

    Bioökonomie-Potenziale im Rheinischen Revier – Industrie und Verwertung (JPG)

    Markets & Economy, Technology

    1 Page
    33 Downloads

    2021-11

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  • biooekonomierevier industrie u verwertung nova relevanteste industrie sektoren thumbnail

    Bioökonomie-Potenziale im Rheinischen Revier – Relevanteste Industriesektoren (JPG)

    Markets & Economy, Technology

    1 Page
    32 Downloads

    2021-11

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  • 21 09 14 scenario for the plastic industry 2050 thumbnail

    Scenario for the Plastic Industry 2050 (PNG)

    Markets & Economy, Policy, Sustainability & Health, Technology

    1 Page
    1566 Downloads

    2021-10

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    The plastics industry of the future will be decoupled from petrochemicals and will meet its carbon needs primarily from recycling. This alone will not close the renewable carbon cycle. The unavoidable losses will then be closed by bio- and CO2-based polymers.

  • 21 05 19 global carbon demand 2020 and 2050 thumbnail

    Global Carbon Demand for Chemicals and Derived Materials (PNG)

    Markets & Economy, Policy, Sustainability & Health, Technology

    1 Page
    1384 Downloads

    2021-10

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    Global Carbon Demand for Chemicals and Derived Materials in 2020 and Scenario for 2050 in million of embedded carbon.

  • ar nova web thumbnail

    Biokomposite: überzeugende Lösungen aus erneuerbaren Materialien

    Markets & Economy, Technology

    3 Pages
    435 Downloads

    2021-09

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    Heute können die verschiedenen Bioverbundwerkstoffe problemlos in einem breiten Spektrum von Anwendungen eingesetzt werden und haben als Alternative zu herkömmlichen Kunststoffen den Massenmarkt erreicht. Das jährliche Wachstum der Biokomposit-Granulate wird von nova-Institut von 2020 bis 2028 auf 5 % (CAGR) geschätzt. Der Bericht zeigt zudem die 20 führenden Produzenten von Biokompost-Granulaten in Europa.

  • 21 04 guidance for a biorefinery roadmap for thailand thumbnail

    Guidance for a biorefining roadmap for Thailand

    Markets & Economy, Policy, Sustainability & Health, Technology

    55 Pages
    169 Downloads

    2021-04

    FREE

     

    OECD SCIENCE, TECHNOLOGY AND INDUSTRY POLICY PAPERS
    April 2021 No. 110

    Biorefineries present an alternative to fossil-based production, and can create employment, wealth and the ecosystem needed to make them function. Thailand is establishing a bioeconomy with widespread biorefining as a strategy for future economic growth. There is political will to establish in Thailand, if feasible, small, decentralised biorefineries to which farmers can locally deliver biomass as feedstock, which can then be processed into bio-based products. This would help to relieve rural poverty, which is still a problem in some areas of Thailand despite progress. Developing a biorefining roadmap will help to assess the feasibility of such an initiative.

     

  • 21 03 29 bioeconomy is not alone 960x680

    Bioeconomy is not alone – from Bioeconomy to Carbon Management

    Policy, Sustainability & Health, Technology

    2 Pages
    203 Downloads

    2021-04

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    The bioeconomy faces great expectations and hopes in the fight against climate change, and at the same time is viewed critically. The biggest problems in building a strong bioeconomy are direct and indirect land use changes, which have significant impacts on biodiversity, climate change, and food security.

  • 2nd International Conference on Cellulose Fibres Proceedings 2021 [Digital]

    2nd International Conference on Cellulose Fibres Proceedings 2021

    Markets & Economy, Policy, Sustainability & Health, Technology


    105 Downloads

    2021-02

    FREE

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    The proceedings of the 2nd International Conference on Cellulose Fibres (2-3 February 2021, https://cellulose-fibres.eu) contain 26 presentations, the conference journal, and the press release of the three winners of the Cellulose Fibre Innovation of the Year 2021 Award!

     

  • cover chemisches recycling

    Chemisches Recycling – Technologie der Zukunft? (PDF)

    Technology

    2 Pages
    194 Downloads

    2021-02

    FREE

     

    In einem komplementären Ansatz liefert chemisches Recycling zusätzliche Optionen, die das derzeitige Recyclingsystem verbessern und erweitern können.

  • ki0521049enn.en shop preview

    Carbon economy – Studies on support to research and innovation policy in the area of bio-based products and services

    Markets & Economy, Policy, Sustainability & Health, Technology

    384 Pages
    655 Downloads

    2021-02

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    Nova-Institute, together with COWI and Utrecht University published a report on the role of carbon in the global, European and regional economy for the Directorate-General for Research and Innovation (European Commission).

    The report herein contains five Work Packages (WPs) that embody the requirements set out in the European Commission’s “Studies on support to R&I policy in the area of bio-based products and services – Carbon Economy (Lot 1).” The main aim of the project was to map out the current pathways available for the transition towards a low carbon economy as well as the barriers that hinder this transition. Based on the conclusions and key findings from the WPs, the authors set the scene for the future of the bio-based sector with a particular focus on ten case studies of regions and cities across the EU (WP4), an evaluation of promising innovations and novel technologies for the realisation of such an economy and a sweeping regulatory analysis containing Q1 2020 updates (WP3) on EU directives and regulations that pertain to the low carbon economy. This attention to the local level as well as the broader policy sphere is supported by a scientific understanding of the low carbon economy (WP1), potential future scenarios towards 2050 (WP2) as well as clear dissemination of the findings across the entire study (WP5). In the frame of the study an animated educational video was produced. The final study report contains an executive summary followed by each Work Package in its entirety, which can also be treated as stand-alone reports in their own right.

    Further information at: https://op.europa.eu/en/publication-detail/-/publication/8c4de15d-a17d-11eb-b85c-01aa75ed71a1