Multilayer plastic film chemical recycling via sequential hydrothermal liquefaction

Multi-material layered plastic films are used in the food packaging industry due to their excellent properties; however they cannot be mechanically recycled. In this study, a two-stage hydrothermal liquefaction (HTL) process is proposed and tested for chemical recycling of a two-layer film made of LLDPE-PET. Experimental results showed that after a first subcritical stage at 325 degrees C, 94% of terephthalic acid (TPA) is recovered from the PET fraction as a solid and 47% of ethylene glycol in the aqueous phase. The unconverted PE was then used as feedstock for a subsequent supercritical HTL stage at 450 degrees C for 90 min, achieving mass yields of 47% and 29% in a naphtha-gasoline oil and in an alkane-rich gas, respectively. In conclusion, this work proved that a sequential HTL procedure can be used for chemical recycling of multilayer plastics, allowing the recovery of PET monomers to be recycled back to the PET industry and a paraffinic oil and hydrocarbon-rich gas phase that could be used as feedstock for steam cracking to produce virgin materials.

Automated summary

This study proposes a two-stage hydrothermal liquefaction (HTL) process for chemical recycling of a two-layer film made of LLDPE-PET. Experimental results showed that a first subcritical stage at 325 degrees C can recover 94% of terephthalic acid (TPA) from the PET fraction as a solid and 47% of ethylene glycol in the aqueous phase. The unconverted PE can then be used as feedstock for a subsequent supercritical HTL stage, achieving mass yields of 47% and 29% in a naphtha-gasoline oil and an alkane-rich gas, respectively.