Litcius/Paper detail

Losses and emissions in polypropylene recycling from household packaging waste

Johann B. Kasper, Luke A. Parker, Sander Postema, Elena M. Höppener, Alexandra H. Leighton, Alexander Matthew David Finnegan, Samuel Benjamin Rutten, José Nijman, Amanda Larasati, André C.C. Soares, Marcel C. P. van Eijk

2024Waste Management14 citationsDOIOpen Access PDF

Abstract

• First time full mass balance of polypropylene recycling process at relevant scale. • In typical PP recycling a yield of 85 % is achievable and can be increased. • Microplastics are generated in PP recycling but can be mitigated to a large extend. • Dissolved air flotation is able to remove 99 % of microplastics from wastewater. In this study we replicated a typical high-quality post-consumer polypropylene (PP) recycling process to investigate its losses and emissions and study potential improvements. To our knowledge this is the first time that quantitative measurements on all process steps have been performed instead of an accumulated yield and emissions in water. In the process an overall PP yield of 85 wt% based on pure PP input is achieved. The loss of target material is largest at the two mechanical dryer steps (6.6 wt%) and in the wet grinder combined with friction washers (4.0 wt%). In the process we observed approx. 3.9 wt% of the PP input as microplastics in the wastewater before the dissolved air flotation unit which is capable of 97–99 % mass-based removal of microplastics (MPs). Around 330 µg of PP was emitted to air at the mechanical drying step for each kg of input material. This is a very low mass fraction, but considering the particle size distribution the number of particles is vast. This emission can be reduced by using air filters at locations where MPs are generated. To reduce losses and emissions we investigated a few potential process changes. Compared to current practice, positive results were achieved by ensuring that the knives of the wet grinder remain sharp. The mechanical drying process can be improved by lowering the centrifugal speed which reduces the generated microplastics here from 4 wt% to 1 wt% without significantly affecting the moisture content.

Topics & Concepts

Waste managementPolypropyleneEnvironmental scienceUrban wasteMunicipal solid wasteEngineeringMaterials scienceComposite materialMicroplastics and Plastic PollutionRecycling and Waste Management TechniquesMunicipal Solid Waste Management