Electrified conversion of plastic waste into olefins & downstream integration

HORIZON.2.4HORIZON-IAID: 101058412
EC Contribution
€141,738
Consortium Size
13 orgs
Summary

The overall objective of ELECTRO is to demonstrate a revolutionary technology concept that links the waste and petrochemical industry and provides them with a sustainable, low GHG footprint and scalable circular solution for olefin and polyolefin production. The priority for ELECTRO is the plastic waste streams that are currently not recycled but rather either incinerated or dumped to landfill: examples are multilayer plastics, mixed PE/PP/PS, and waste PS. An innovative modular extruder for optimal pre-treatment of plastic waste will be combined with an electrically heated reactor for the catalytic pyrolysis of plastic waste at TRL 7. The main product, plastic waste pyrolysis oil, will be used as a feed for steam crackers. Steam cracking will be electrified in the roto-dynamic reactor (RDR), a second novel reactor technology to be demonstrated at TRL 7 in ELECTRO. In the RDR heat transfer is accelerated by an order of magnitude compared to heat transfer rates achieved in the fired heaters used in conventional crackers. And so the RDR has a substantially higher selectivity towards light olefins and improved process efficiency. The light olefins will be further processed into PE and PP, demonstrating the technical feasibility of chemical recycling and the use of plastic waste as a circular carbon feed. This scalable concept will enable strong industrial symbiosis, with the initial LCA showing an 90% GHG reduction compared to today's best available technology (BAT). Given the amount of plastic waste that can be converted, and the market demand for the compounds produced, the impact of ELECTRO will be profound. To further extend the impact of ELECTRO, the global replicability and economic viability of the proposed concept will be demonstrated using waste streams from the Republic of Korea and Indonesia, and a thorough programme will be implemented to train the next generation of waste management engineers and workers.

Consortium (13)

Project Results (25)

Source: CORDIS, the EU research results database.

Publications (25)
An electricity-powered future for mixed plastic waste chemical recycling
Waste Management· 2025DOI
Stavros A. Theofanidis, Evangelos Delikonstantis, Vasileia-Loukia Yfanti, Vladimir V. Galvita, Angeliki A. Lemonidou, Kevin Van Geem
Maximizing Pyrolysis Oil Utilization in Existing Naphtha Crackers
· 2025DOI
Muñoz, Andrés; Amghizar, Ismael; Brown, David J.; Chen, Lin; Marin, Guy; Van Geem, Kevin
Plastic waste as a circular carbon feedstock for industry
· 2025DOI
Amghizar, Ismael; Woolf, Gordon
Selective catalytic cracking of plastic waste for naphtha-like pyrolysis oil production
· 2025DOI
Soldatos, Petros; Lemonidou, Angeliki; Triantafyllidis, Konstantinos
Upgrading of plastic pyrolysis oil over zeolitic catalysts: Effect of reactor type and operating variables
· 2025DOI
Soldatos, Petros; Andrianos, Sotirios Angelos; Triantafyllidis, Konstantinos; Lemonidou, Angeliki
Catalytic upgrading of plastic wastes fast pyrolysis oils towards naphtha range hydrocarbons
· 2024DOI
Soldatos, Petros; Margellou, Antigoni; Torofias, S.; Lemonidou, Angeliki; Triantafyllidis, Konstantinos
Comprehensive understanding of the thermal behavior of thermoplastics: A path to sustainable plastic waste management in Korea
· 2024DOI
Jeon, Jiwoon; Che, Clovis Awah; Heynderickx, Philippe M.
Experimental investigation of reactor type and operating variables in the catalytic upgrading of plastic pyrolysis oil
· 2024DOI
Andrianos, S.-A.; Soldatos, P.; Triantafyllidis, Konstantinos; Lemonidou, Angeliki
Greenergize your process
· 2024DOI
Delikonstantis, Evangelos; Theofanidis, Stavros-Alexandros
Hydrothermal conversion of Korean polyethylene terephthalate and polystyrene wastes into plastic hydrochar through hydrothermal carbonization using a 200-L pilot scale reactor
· 2024DOI
Che, Clovis Awah
In-situ catalytic upgrading of plastic waste fast pyrolysis oil
· 2024DOI
Soldatos, Peter; Margellou, Antigoni; Torofias, Stylianos; Yfanti, Vasileia - Loukia; Lemonidou, Angeliki; Triantafyllidis, Konstantinos
Optimized in-situ catalytic upgrading of plastic waste pyrolysis oil to naphtha-range hydrocarbons
· 2024DOI
Soldatos, Petros; Margellou, Antigoni; Torofias, S.; Lemonidou, Angeliki; Triantafyllidis, Konstantinos
Reduced-order condensed-phase kinetic models for polyethylene thermal degradation
· 2024DOI
Locaspi, Andrea; Faravelli, Tiziano
Secondary gas-phase reactions of polyethylene pyrolysis: semi-detailed and global kinetics
· 2024DOI
Pegurri, Alessandro; Locaspi, Andrea; Mehl, Marco; Pelucchi, Matteo; Stagni, Alessandro; Faravelli, Tiziano
Secondary gas-phase reactions of polyethylene pyrolysis: semi-detailed kinetics
· 2024DOI
Pegurri, Alessandro; Locaspi, Andrea; Mehl, Marco; Pelucchi, Matteo; Stagni, Alessandro; Faravelli, Tiziano
Thermochemical recycling of LDPE through fast pyrolysis & catalytic upgrading towards naphtha range hydrocarbons
· 2024DOI
Soldatos, Petros; Margellou, Antigoni; Lemonidou, Angeliki; Triantafyllidis, Konstantinos
Catalytic upgrading of waste plastic pyrolysis oil
· 2023DOI
Yfanti, Vasileia - Loukia; Zoupidis, H.; Margellou, Antigoni; Triantafyllidis, Konstantinos; Lemonidou, Angeliki
Empowering Reaction Engineering for a Net Zero Chemical Industry
· 2023DOI
Van Geem, Kevin
Hydrothermal carbonization of plastic waste: A review of its potential in alternative energy applications
Fuel Communications· 2023DOI
Clovis Awah Che, Philippe M. Heynderickx
Modeling of a rotodynamic reactor
School of Chemical Engineering· 2023
Erik Haikala
Plastic Waste Management in South Korea: Current Situation, Limitations, and Potential Solutions
· 2023DOI
Jeon, Jiwoon; Kwak, Keon; Kwak, Kyoung; Kim, Kyuri; Kim, Haeun; Kwack, Hyejin; Che, Clovis Awah; Heynderickx, Philippe
Production of naphta grade hydrocarbons from pyrolysis of post-consumer mixed plastics
· 2023DOI
baruah, bhargav; Lievens, Caroline; Vanderweeen, Brent; Van Geem, Kevin
Thermochemical recycling of polyethylene terephtalate: experimental and kinetic investigation
· 2023DOI
Locaspi, Andrea; Van Geem, Kevin; Faravelli, Tiziano; Akin, Oğuzhan; Havaei, Mohammadhossein; Mehl, Marco; Pelucchi, Matteo; Varghese, Robin John
Thermochemical recycling of polyethylene terephtalate: experimental and kinetic investigation
· 2023DOI
Locaspi, Andrea; Akin, Oğuzhan; Mehl, Marco; Pelucchi, Matteo; Varghese, Robin John; Van Geem, Kevin; Faravelli, Tiziano
Developing a New Hybrid Kinetic Model for Chemical Recycling of Vinyl Polymers
Faculty of Engineering and Architecture Research Symposium 2022 (FEARS 2022), Abstracts· 2022DOI
Withoeck, Daniël; Dogu, Onur; Van Steenberge, Paul; Van Geem, Kevin