Abstract
Full-scale wastewater treatment facilities are not able to prevent microplastics (MPs) from discharging into natural waters and they are also associated with the land application of the sludge. This study evaluates the distribution of microfibers (MFs) in a lab-scale sequencing batch reactor (SBR) fed by synthetic wastewater (SW) for 93 days. The MFs were analyzed through optical microscopy in the mixed liquor (ML) and the effluent, and sulfuric acid digestion was applied to discriminate between natural and synthetic MFs (i.e., MPs). The results of the optical microscopy analyses were further validated through FTIR spectroscopy. A model describing the evolution over time of the MF concentration in the ML was created, accounting for the MFs entering the system through the SW and atmospheric deposition. The ratio between the MF concentration in the ML and the effluent was 1409 ± 781, demonstrating that MFs settle with the sludge. Consistently, in the ML, 64.9% of the recovered MFs were smaller than 1000 µm (average size 968 µm), while in the effluent, 76.1% of MFs were smaller than 1000 µm (average size 772 µm). Overall, 72% of MFs recovered from the ML were natural fibers and sulfuric acid digestion was successful in eliminating the natural MFs.
Highlights
Microplastics (MPs) are found in all types of habitats, from water to sediments and soil, in urban and remote areas [1], the highest concern has been raised regarding aquatic ecosystems [2,3]
Recent literature [9,10] has demonstrated that wastewater treatment plants (WWTPs) are not able to prevent the release of MPs into natural waters, where they could harm the aquatic fauna [9]
This research attempted to address two key issues related to the study of the presence of microplastics (MPs) within wastewater treatment processes
Summary
Microplastics (MPs) are found in all types of habitats, from water to sediments and soil, in urban and remote areas [1], the highest concern has been raised regarding aquatic ecosystems [2,3]. Recent literature [9,10] has demonstrated that wastewater treatment plants (WWTPs) are not able to prevent the release of MPs into natural waters, where they could harm the aquatic fauna [9]. Since WWTPs do not currently apply treatment technologies designed for the removal of MPs [14], they can be released with the depurated effluent. The measured removal rate of MPs in actual WWTPs is above 88%, and exceeds 97%
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