Technological watch

Tomra’s New Sorting Technology for High-purity Recycled Polystyrene


Under the umbrella of Styrenics Circular Solutions (SCS), Tomra has recently completed tests revealing that polystyrene (PS) is not only made for recycling, but also made for sorting.
New Technology to Sort Post-consumer Waste
With Tomra’s near-infrared (NIR) sensor technology, post-consumer plastic waste was sorted in a multi-step process including initial sorting from post consumer waste, grinding into smaller flakes, washing, drying and flake sorting. The resulting purity of polystyrene turned out to be higher than 99.9 percent.
Jürgen Priesters, SVP, Circular Economy at Tomra, sees one reason for the good results is certain properties of the material, “Styrenic compounds have a unique signal that enable easy and very precise sorting, an advantage which some of the other polymers do not have.”
High Purity Level
Tomra’s findings prove that today’s sorting technologies achieve a purity level beyond what is required to successfully recycle polystyrene through both mechanical as well as advanced recycling processes. Along with INEOS Styrolution’s investments in multiple recycling projects, this takes the company another step closer to developing closed-loop solutions for styrenics.
Recycling Styrenics for Circular Economy
INEOS Styrolution continues along its path to build the best recycled ABS in the world and chemically recycled polystyrene at commercial scale. The company is investing in multiple projects in Europe and in the Americas to set up recycling facilities based on the depolymerisation process.
These findings on polystyrene sorting makes styrenics a material of choice for a circular economy and confirms our statement that styrenics are made for recycling like no other,” comments Sven Riechers, Vice President, Business Management, Standard Products EMEA at INEOS Styrolution.


Publication date: 03/03/2020

Omnexus (news)

      

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 870292.