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Assessing the feasibility of ocean plastic waste as secondary feedstock for the production of base chemicals
Kibuta, C.; Akin, O.; Withoeck, D.; He, Q.; Schmidt, M.; Varghese, R.J.; Schlummer, M.; De Meester, S.; Calik, F.D.; Denton, M.; Buettner, A.; Van Geem, K.M. (2025). Assessing the feasibility of ocean plastic waste as secondary feedstock for the production of base chemicals. Waste Management 195: 167-176. https://dx.doi.org/10.1016/j.wasman.2025.02.003
In: Waste Management. PERGAMON-ELSEVIER SCIENCE LTD: Oxford. ISSN 0956-053X, meer
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| Author keywords |
Ocean Plastic waste; Single-step olefin production via micropyrolysis; Comprehensive two-dimensional gas chromatography |
| Auteurs | | Top |
- Kibuta, C.
- Akin, O.
- Withoeck, D.
- He, Q., meer
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- Schmidt, M.
- Varghese, R.J.
- Schlummer, M.
- De Meester, S., meer
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- Calik, F.D.
- Denton, M.
- Buettner, A.
- Van Geem, K.M., meer
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| Abstract |
Plastic pollution in the marine environment is a growing concern, with around 10 % of globally produced plastics ending up in oceans annually. Most ocean plastics are incinerated for energy recovery if harvested, since harvesting remains a key challenge. This study evaluated the feasibility of recovering base chemicals from the polyethylene (PE) and polypropylene (PP) fraction of ocean plastic waste through a single-step olefin production method. The approach employed a micropyrolyzer unit coupled with comprehensive two-dimensional gas chromatography (µP-GC × GC) and dual detectors to analyze gaseous product yields. Elemental and matrix analyses of the waste were performed using CHNS/O elemental analysis, Inductively Coupled Plasma Optical Emission Spectroscopy (ICP-OES), and Combustion Ion Chromatography (CIC) to identify potentially harmful components. We present here the yields of critical light olefins such as ethylene (13 wt% from PE samples, 9 wt% from PP samples) and propylene (10 wt% from PE samples, 17 wt% from PP samples) at 700 °C. Pyrolysis products detected in PP samples included 24 wt% of branched olefins, whereas 54 wt% of linear olefins were detected in PE samples. The aromatics detected in the samples ranged between 1–3 wt%, with naphthene levels ranging between 4–7 wt%. Furthermore, metal contaminants, such as nickel, silicon, copper, iron, sodium, calcium, and potassium, were detected from the waste via ICP-OES, and chlorine levels via CIC. The results suggest that ocean plastic waste could serve as feedstock for production of light olefins, provided pre- and post-treatment procedures are implemented to mitigate contamination |
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