Nowadays, Polyethylene Terephthalate (PET)-based waste streams are mainly treated by means of mechanical processes, aimed at recovering plastic solid waste (PSW) for re-use; because of the degradation and heterogeneity of PSW, only single-polymer plastics can be processed, thus excluding all the more complex and contaminated waste. Quality is the main issue when dealing with mechanically recycled products, which, in the end, could just be burned or land field disposed.
Chemical processing could be considered, instead, for complete recovering of the molecules constituting the polymer (which would be then ready to be used to produce virgin PET) but, up until now, de-polymerization approaches have not been widely adopted within industrial practice due to their inability of working continuously, their very high reaction times and, in the end, inability to achieve economic return of investment.
The value chain of PET is quite complex, and involves several steps that already links in cross-sectorial interactions multiple companies across the European and worldwide market. It is at the end of that life cycle that DEMETO proposes its innovative technology: the first feasible and sustainable (economically, environmentally and socially) industrial application of chemical treatment for reuse of PET/Polyester waste streams. Thanks to a process intensifying approach based on innovative usage of microwave radiations, DEMETO’s recycling technology will provide an indefinite life to PET, allowing to come back to its composing elements (Ethylene Glycol, EG, and Terephtalic Acid, PTA) without degrading the materials and, consequently, paving the way for a disruptive, large-scale circular economy for plastic products.