Periodic Reporting for period 3 - iCAREPLAST (Integrated Catalytic Recycling of Plastic Residues Into Added-Value Chemicals)
Periodo di rendicontazione: 2021-10-15 al 2023-04-14
iCAREPLAST achieved enhanced plastic upcycling efficiency at pilot-plant scale (TRL-7). The process has resulted in a quantifiable 12% increment in pyrolysis liquid yield, 45% reduction in energy requirements, and 95% reduction in residues. These improvements have a great impact on the economic yield of the process, resulting in an increase of up to 200%.
Communication and dissemination efforts included presentations at events, conferences, and fairs, as well as scientific publications. Training activities engaged students at various academic levels. iCAREPLAST is positioned within the future plastic circularity landscape, with the Project Coordinator playing a leading role in the Plastics Circularity Multiplier group.
Developed an exploitation plan to assess iCAREPLAST technologies' economic potential and market uptake. Key factors include a production capacity of 12,000,000 kg/year, a €25,000,000 investment, inflation rates, a 15-year analysis period, material and energy balance based on experiments and modelling optimization, and by-product sales (e.g. €1/kg from aromatics). The results indicate potential revenue streams and project profitability, considering these factors and market prices for generated by-products.
iCAREPLAST significantly contributes to CO2 emission reduction. The treatment of mixed plastic waste resulted in a positive impact of -0.3 kg CO2-Eq. This is achieved by substituting secondary products for those produced from virgin fossil fuels. The project included a TRL5 unit that allowed for the capture and energy valorisation of fuel-gas streams at various process points through oxycombustion, which increased the overall energy efficiency. Analyses developed revealed that energy efficiency could be improved by more than 93% compared to current recycling processes.
iCAREPLAST process reduce CO2 emissions for plastic waste treatment compared to conventional incineration. When considering the substitution of virgin by secondary materials, the impact of the recycling process can even reach below net zero level. The oxycombustion unit (TRL5) for the capture and energy valorisation of fuel-gas streams significantly increased the overall energy efficiency. The environmental assessment of the recycling process can be carried on continuously in the future through the developed Live LCA framework and can be used as a decision support tool for further process optimization.
iCAREPLAST expand the spectrum of plastic waste types that can be recycled to almost every plastic. Thus, when no restrictions are put on the plastic materials that can be recycled, citizens will receive a message that will reinforce their involvement in the recycling chain. This citizen engagement will contribute to the EU targets for recycling 65% of municipal waste and 75% of packaging waste by 2030.
iCAREPLAST achieved important results by developing and implementing new methods: a new pre-treatment process for plastic blends, an advanced char extraction system, tools for analysing ecological performance in real-time, an innovative unit for separating aromatic products, an oxycombustion unit for side stream gases, a new alkylation catalyst, catalytic processes in plastic-mixture pyrolysis, a control architecture for optimizing pyrolysis yield, and a real-time monitoring LCA application.
The pilot-plant scale process has demonstrated (TRL-7) been successful in increasing the efficiency of plastic upcycling (a 12% increase in pyrolysis liquid yield, a 45% reduction in energy requirements, and a 95% reduction in residues), which resulted in a significant improvement of the economic yield of the process (up to 200% increase compared to current processes).