How exactly was it optimized?
Hausladen: BASF, in collaboration with Südpack, has developed an adhesive that can be dissolved during the intensive washing phase of PET recycling. This allows the two bonded materials to beseparated in the recycling process. The primary goal here is to recycle valuable PET material, although processing PE is also possible as a subsequent step.
How does this recycling process work?
Hausladen: It's based on the standard PET recycling process. After shredding and pre-washing the material, it undergoes intensive washing. At this stage, the adhesive dissolves in hot detergent solution, allowing the two material components to separate. Following this, the PE portion is separated from the PET stream through density separation. After the cleaning process is complete, even reusing the decontaminated PET in food packaging becomes a possibility.
Krones didn't develop any new recycling machinery or procedures for this project. The aim was to create a novel adhesive that would allow materials to be separated during the standard process. This would enable multi-layer packaging to be processed using existing recycling channels. Our role at Krones was to evaluate how effectively the multi-layer packaging could be separated. For this purpose, we provided the pilot plant as well as our analytical expertise.
Are there specific types of multi-layer packaging that are especially challenging to recycle? How is Krones addressing this?
Hausladen: Mixed materials in the masterbatch, or as previously mentioned in extrusion, currently can't be materially recycled. These materials are sorted out in sorting plants (for example, using Tomra sorters) and make it to the recycling plants only in minimal quantities. We're supporting the future development of fully recyclable packaging by continually optimizing our recycling process andalso by contributing to this project.