AI Article Synopsis
- Medium-low temperature pyrolysis effectively retains active components in sludge char but may leave behind microplastics (MPs) due to incomplete cracking reactions.
- High concentrations of environmentally persistent free radicals (EPFRs) were found in these microplastics, especially when heated between 350-450 °C, with some polymers showing significantly higher levels of EPFRs.
- The formation of EPFRs is linked to temperature-dependent interactions between the pyrolysis products and the microplastics, suggesting that controlling temperature and sludge composition could mitigate the environmental risks related to these byproducts.
Article Abstract
Medium-low temperature pyrolysis is an effective method of retaining active components in sludge char. However, we found that incomplete cracking reactions resulted in residues of microplastics (MPs) remaining in the char; moreover, high levels of environmentally persistent free radicals (EPFRs) were detected in these MPs. Here, we investigated the temperature-dependent variations in the char-volatile products derived from sludge and MPs under different pyrolysis scenarios using multiple in situ probe coupling techniques and electron paramagnetic resonance spectroscopy, thereby identifying the sources of EPFRs and elucidating the corresponding formation-conversion mechanisms. The temperature was the key factor in the formation of EPFRs; in particular, in the 350-450 °C range, the abundance of EPFRs increased exponentially. Reactive EPFR readily formed in MPs with conjugated aromatic-ring structures (polyethylene terephthalate and polystyrene) at a temperature above 350 °C; EPFR concentrations were 5-17 times higher than those found in other types of polymers, and these radicals exhibited half-lives of more than 90 days. The EPFR formation mechanism could be summarized as solid-solid/solid-gas interfacial interactions between the polymers and the intermediate products from sludge pyrolysis (at 160-350 °C) and the homolytic cleavage-proton transfer occurring in the polymers themselves under the dual action of thermal induction and acid sites (at 350-450 °C). Based on the understanding of the evolution of EPFRs, temperature regulation and sludge components conditioning may be effective approaches to inhibit the formation of EPFRs in MPs, constituting reliable strategies to diminish the environmental risk associated with the byproducts of sludge pyrolysis.
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| http://dx.doi.org/10.1021/acs.est.2c04453 | DOI Listing |
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