More than 30 Years of PVC Recycling in Europe—A Critical Inventory
Abstract
:1. Introduction
- PVC interferes with waste disposal (chlorine and toxic additives) [6].
2. Materials, Methods, Definitions, and Target
2.1. PVC Polymers and PVC Compounds
2.2. Methods for Recording the Volumes of Recycled Material
2.3. Definitions: Recycling
- Physical recycling, which includes:
- ○
- Mechanical recycling: processing without dismantling the compound; the bond of PVC polymer and additive is retained; and the output are flakes or granulate, which are converted to new products.
- ○
- Solvent-based recycling (purification, dissolution): use of chemicals (e.g., organic solvents) to dissolve the compounded plastic, whereby the polymer chain remains intact and can be reused for the fabrication of new products.
- Chemical recycling:
- ○
- Depolymerization: This includes, e.g., thermal depolymerisation, chemolysis, and solvolysis. Here, the plastics are broken down into their building blocks—oligomers (partial depolymerization) and monomers (full depolymerization).
- ○
- Thermolysis: Decomposition of the polymers by thermal processes (e.g., pyrolysis, gasification); the resulting fragments (monomers, hydrocarbons, CO, etc.) can be used as feedstock for the synthesis of other substances or as a raw material in other processes. Following this logic, waste-to-energy (WtE) with carbon capture and utilization (CCU) in the chemical industry is also part of chemical recycling.
- Energy recovery (thermal recycling): Use of the energy content of the plastic in incineration plants (waste-to-energy), cement plants, or power plants fired with solid recovered fuels (SRF).
- “Closed loop is a recycling process whereby the recycled material is reused for the same market application as that of its previous life cycle (system-wide concept)”.
- “Open loop is a recycling process whereby the recycled material is used for a different market application than that of the previous life cycle (system-wide concept)” [29].
2.4. Target: Sustainability through Recycling
2.4.1. Germany (1988)
- The manufacturers of PVC flooring had built a recycling plant for around 2.6 million Deutsche Mark (DM) (about 1.3 million EUR), but only 10% of the plant was utilised with post-consumer PVC flooring waste. The recycled material was used as a back coating.
- Only just under 5% post-consumer PVC was used in the pipe recycling plant (mainly PE was recycled). Low-quality products such as support pipes or winding cores for carpeting were produced.
- The window manufacturers had set up two recycling plants. One was built in Behringen for just under 18 million DM (about 9.2 million EUR). The plant was well utilised, but mainly processed pre-consumer offcuts. Only just under 5% of post-consumer PVC was recycled at the time. The second plant in Rahden processed off-cuts and post-consumer PVC separately and had a slightly better capacity utilization of 30%.
2.4.2. Europe (Since 2000)
3. Results: 35% Recycling Rate in Europe—An Analysis
3.1. Reference Value
- (1)
- The new VinylPlus 2030 commitment focused on all waste streams including pre-consumer as it was acknowledged that the full recycling potential had not yet been achieved there in part because of the strong focus of previous VinylPlus commitments on post-consumer waste.
- (2)
- New restrictions have been put in place decreasing the number of potential outlets for recyclates and limiting the ability to recycle certain products (e.g., decrease in recycling in sheets following the restriction of DEHP (Di(2-ethylhexyl) phthalate), lead in PVC restriction). This is probably a trend that will be reinforced short term until new projects enable to unblock recycling potential (e.g., sorting of legacy additives, chemical recycling, dissolution technologies…).
3.2. Recycling or Downcycling
- Windows and profiles: ...................................39%
- Floor coverings: ..............................................25%
- Traffic management: ......................................18%
- Pipes: ................................................................10%
- Building & construction—other: ...................6%
- Horticultural and stable equipment: ............1%
- Coils and mandrels: ........................................0.18%
- Packaging: ........................................................0.16%
3.3. Recycling Rates in Germany
3.4. VINYLOOP®—A Review
3.5. Chemical Recycling—A Review
3.5.1. Recycling Options
3.5.2. Hydrocarbon Recycling
3.5.3. Chlorine Recycling
4. Discussion: No Sustainability—Attempts of an Explanation
4.1. Starting Point
4.2. First Reason: The Quantity and Variety of Additives
4.3. Second Reason: Legacy Chemicals (Legacy Additives)
4.4. Third Reason: Economic Interests?
5. Conclusions
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Acknowledgments
Conflicts of Interest
References
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Polymer | 1990 | 2000 | 2010 | 2015 | 2016 | 2017 | 2018 | 2019 |
---|---|---|---|---|---|---|---|---|
PE (sum) | 30.0 | 54.6 | 81.9 | 98.2 | 100.1 | 103.2 | 106.5 | 109.8 |
HDPE | 14.4 | 26.6 | 40.7 | 49.8 | 50.8 | 52.3 | 53.9 | 55.5 |
LDPE, LLDPE | 15.7 | 27.9 | 41.2 | 48.4 | 49.3 | 50.9 | 52.6 | 54.3 |
PP | 20.8 | 37.2 | 55.4 | 65.4 | 66.6 | 68.5 | 70.7 | 72.8 |
PVC | 14.7 | 26.2 | 38.6 | 45.3 | 46.1 | 47.8 | 49.8 | 51.4 |
PS | 6.4 | 11.2 | 16.3 | 18.9 | 19.2 | 19.8 | 20.5 | 21.1 |
PET | 6.6 | 12.2 | 18.5 | 22.5 | 23.0 | 23.6 | 24.2 | 24.9 |
PUR | 5.4 | 9.5 | 13.9 | 16.1 | 16.4 | 16.9 | 17.5 | 18.0 |
Total | 129.9 | 234.0 | 348.9 | 412.8 | 420.0 | 432.2 | 446.2 | 459.7 |
Application | PVC Polymer | Plasticizer | Stabilizer | Filler | Others |
---|---|---|---|---|---|
Rigid PVC applications (PVC-U) | |||||
Pipes | 98 | - | 1–2 | - | - |
Window profiles (lead stabilized) | 85 | - | 3 | 4 | 8 |
Other profiles | 90 | - | 3 | 6 | 1 |
Rigid films | 95 | - | - | - | 5 (1) |
Flexible PVC applications (PVC-P) | |||||
Cable insulation | 42 | 23 | 2 | 33 | - |
Flooring (calendar) | 42 | 15 | 2 | 41 | - |
Flooring (paste, upper layer) | 65 | 32 | 1 | - | 2 |
Flooring (paste, inside material) | 35 | 25 | 1 | 40 | - |
Synthetic leather | 53 | 40 | 1 | 5 | 1 |
Country | Total WtE Plants | Plants with Data Available | Dry FGC | Semi-Dry FCG | Dry + SD FCG | Wet FGC + Dry or + SD | Sum Dry + SD | Share of Plants with Data Available |
---|---|---|---|---|---|---|---|---|
France | 127 | 124 | 47 | 24 | 2 | 2 | 75 | 60% |
Germany | 55 | 47 | 6 | 19 | 0 | 6 | 31 | 66% |
Italy | 51 | 49 | 22 | 10 | 1 | 3 | 36 | 73% |
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Lahl, U.; Zeschmar-Lahl, B. More than 30 Years of PVC Recycling in Europe—A Critical Inventory. Sustainability 2024, 16, 3854. https://doi.org/10.3390/su16093854
Lahl U, Zeschmar-Lahl B. More than 30 Years of PVC Recycling in Europe—A Critical Inventory. Sustainability. 2024; 16(9):3854. https://doi.org/10.3390/su16093854
Chicago/Turabian StyleLahl, Uwe, and Barbara Zeschmar-Lahl. 2024. "More than 30 Years of PVC Recycling in Europe—A Critical Inventory" Sustainability 16, no. 9: 3854. https://doi.org/10.3390/su16093854
APA StyleLahl, U., & Zeschmar-Lahl, B. (2024). More than 30 Years of PVC Recycling in Europe—A Critical Inventory. Sustainability, 16(9), 3854. https://doi.org/10.3390/su16093854