Open Access
E3S Web Conf.
Volume 247, 2021
International Conference on Efficient Production and Processing (ICEPP-2021)
Article Number 01005
Number of page(s) 6
Published online 05 April 2021
  1. Report «What a Waste 2.0» of International Bank for Reconstruction and Development [Electronic resource] (2018) Available at: [Google Scholar]
  2. Patent Landscape Report on «E-Waste Recycling Technologies» [Electronic resource] (2013) Available at: [Google Scholar]
  3. Year in Review 2019 «WIPO GREEN» [Electronic resource] (2020) Available at: [Google Scholar]
  4. The base of data of the «WIPO GREEN» [Electronic resource] Available at: [Google Scholar]
  5. K. Jaidev, M. Biswal, S. Mohanty, S.K. Nayak. Sustainable Waste Management of Engineering Plastics Generated from E-Waste: A Critical Evaluation of Mechanical, Thermal and Morphological Properties, Journal of Polymers and the Environment (2021) [Google Scholar]
  6. A. Samuila, L. Dascalescu, L. Calin, M. Bilici, A. Catinean, Recent researches in electrostatic separation technologies for the recycling of waste electric and electronic equipment, AIP Conference Proceedings, 2218, 030001 (2020) [Google Scholar]
  7. R. Cherrington, K. Makenji, Mechanical methods of recycling plastics from WEEE Book Chapter (Waste Electrical and Electronic Equipment (WEEE) Handbook, 2019, 283–310) [Google Scholar]
  8. C. Signoret, A.S. Caro-Bretelle, J.M. Lopez-Cuesta, P. Ienny, D. Perrin, Alterations of plastics spectra in MIR and the potential impacts on identification towards recycling, Resources, Conservation and Recycling, 161, 104980 (2020) [Google Scholar]
  9. L. Milios, L. Holm Christensen, D. McKinnon, M.K. Rasch, M. Hallstrom Eriksen, Plastic recycling in the Nordics: A value chain market analysis, Waste Management, 76, 180–189 (2018) [Google Scholar]
  10. G.D. Mumbach, A. Bolzan, R.A.F. Machado, A closed-loop process design for recycling expanded polystyrene waste by dissolution and polymerization, Polymer, 209, 122940 (2020) [Google Scholar]
  11. L. Bertrand. A solution for multi component, laminated and dirty mixed waste plastics (surface-flash-cracking), Proceedings of the Air and Waste Management Association’s Annual Conference and Exhibition, AWMA (2019) [Google Scholar]
  12. R.E. Allred, J.M. Gosau. Plant requirements for large-scale chemical recycling of composite materials, CAMX 2016 – Composites and Advanced Materials Expo (2016) [Google Scholar]
  13. V. Sommer, G. Walther, Recycling and recovery infrastructures for glass and carbon fiber reinforced plastic waste from wind energy industry: A European case study, Waste Management, 121, 265–275 (2021) [Google Scholar]
  14. J. Datta, P. Kopczynska, From polymer waste to potential main industrial products: Actual state of recycling and recovering, Critical Reviews in Environmental Science and Technology, 46 (10), 905–946 (2016) [Google Scholar]
  15. A. Lee, M. Shan Liew, Tertiary recycling of plastics waste: an analysis of feedstock, chemical and biological degradation methods, Journal of Material Cycles and Waste Management, 23, 2–43 (2021) [Google Scholar]
  16. D. Sultanova, A. Maliashova, L. Abzalilova, R. Sultanova, The main obstacles for development of international activity with russian-european chemical clusters: environ-mental aspect, E3S Web of Conferences: ICEPP 2020, 161 (2020) [Google Scholar]
  17. A. Khaertdinova, D. Sultanova, D. Iskhakova, A. Karimov, Recycling of Polymers – An Opportunity or a Threat to the Economy?, E3S Web of Conferences: ICEPP 2020, 161 (2020) [Google Scholar]
  18. A. Starodubova, D. Sultanova, A. Karimov, The concept of balanced development of waste management, E3S Web of Conferences: ICEPP 2020, 161 (2020) [Google Scholar]
  19. C. Matthews, F. Moran, A.K. Jqiswal, A review on European Union’s strategy for plastics in a circular economy and its impact on food safety, Journal of Cleaner Production, 283 (2021) [Google Scholar]
  20. F. Casarejos, C.R. Bastos, C. Rufin, M.N. Frota, Rethinking packaging production and consumption vis-à-vis circular economy: A case study of compostable cassava starch-based material, Journal of Cleaner Production, 201, 1019–1028 (2018) [Google Scholar]
  21. J.N. Hahladakis, E. Lacovidou, Closing the loop on plastic packaging materials: What is quality and how does it affect their circularity?, Science of the total environment, 630, 1394–1400 (2018) [Google Scholar]
  22. J. Payne, P. Mckeown, M.D. Jones, A circular economy approach to plastic waste, Polymer Degradation and Stability, 165, 170–181 (2019) [Google Scholar]
  23. M. Robaina, K. Murillo, E. Rocha, J. Villar, Circular economy in plastic waste – Efficiency analysis of European countries, Science of the total environment, 730, 139038 (2020) [Google Scholar]
  24. K. Joachimiak-Lechman, D. Garstecki, M. Konopczynski, A. Lewandowska, Implementation of Life Cycle Based Tools in the Circular Economy Context – Case Study of Plastic Waste, Sustainability, 12 (23), 9938 (2020) [Google Scholar]
  25. E. Gubanova, L. Kupinets, H. Deforzh, V. Koval, K. Gaska. Recycling of polymer waste in the context of developing circular economy, Architecture, Civil Engineering, Environment, 12 (4), 99–108 (2020) [Google Scholar]
  26. The base of data of the «World Intellectual Property Organization» [Electronic resource] Available at: [Google Scholar]
  27. The base of data of the «REACH» [Electronic resource] Available at: [Google Scholar]
  28. M. Porter, M. Kramer, Creating shared value: How to reinvent capitalism and unleash a wave of innovation and growth (Harvard Business Review, 2011, 62–77). [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.