Recycling plastic waste into high-value materials- Closing the Loop

There is an urgent need to develop new technologies that can not only valorise unsorted plastic but also other waste in large amounts to yield material streams that can replace fossil material streams. One promising technology to recycle unsorted heterogeneous plastic waste is pyrolysis. While the low to medium temperature pyrolysis (400C) produces mainly liquid oil that needs to be fed into the furnace of the steam cracker unit (at higher temperature than 900C) to produce olefins, with our proposal, at high-temperature pyrolysis (<850C) syngas stream (light olefins rich) is fostered and could be integrated downstream the furnace of the steam cracker. However, the use of high-temperature pyrolysis for plastic waste recycling has not yet become an industrial practice since gas treatment and integration present a great challenge. Plastics2Olefins project will address this challenge - it will design, build, and run a demonstration plant for recycling of unsorted plastic waste at Repsol's plant Puertollano (Spain), which will be digitalised and run on 100% renewable (electric) energy. The project estimates to reduce the lifecycle GHG emissions by 70-80% compared to incineration and existing plastics recycling processes providing an important contribution to the EU reaching climate neutral by 2050 and set a pathway for commercialisation of renewable plastic feedstock replacing fossil fuels.