| Title | Material flow analysis and recycling performance of an improved mechanical recycling process for post-consumer flexible plastics |
|---|---|
| ID_Doc | 19487 |
| Authors | Lase, IS; Bashirgonbadi, A; van Rhijn, F; Dewulf, J; Ragaert, K; Delva, L; Roosen, M; Brandsma, M; Langen, M; De Meester, S |
| Title | Material flow analysis and recycling performance of an improved mechanical recycling process for post-consumer flexible plastics |
| Year | 2022 |
| Published | |
| Abstract | Increasing the recycling rates for post-consumer flexible plastics (PCFP) waste is imperative as PCFP is consid-ered a difficult-to-recycle waste with only 17 % of PCFP effectively recycled in Europe. To tackle this pressing issue, improved mechanical recycling processes are being explored to increase the recycling rates of PCFP. One interesting option is the so-called quality recycling process (QRP) proposed by CEFLEX, which supplements more conventional mechanical recycling of PCFP with additional sorting, hot washing, improved extrusion, and deodorization. Material flow analysis (MFA) model is applied to assess the performance of QRP. Four perfor-mance indicators related to quantity (process yield and net recovery) and quality (polymer grade and transparency grade) are applied to measure the performance of three PCFP mechanical recycling scenarios. The results are compared against the conventional recycling of PCFP, showing that QRP has a similar process yield (64 % - 66 %) as conventional recycling (66 %). The net recovery indicator shows that in QRP higher recovery rates are achieved for transparent-monolayer PCFP (> 90 %) compared to colored-multilayer PCFP (51 % - 91 %). The quality indicators (polymer and transparency grades) demonstrate that the regranulates from QRP have better quality compared to the conventional recycling. To validate the modeling approach, the modeled compositional data is compared with experimental compositional analyses of flakes and regranulates produced by pilot recycling lines. Main conclusions are: (i) although yields do not increase significantly, extra sorting and recycling produces better regranulates' quality (ii) performing a modular MFA gives insights into future recycling scenarios and helps in decision making. |
| https://doi.org/10.1016/j.wasman.2022.09.002 |
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