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A complete mass balance for plastics in a wastewater treatment plant - Macroplastics contributes more than microplastics

Water Research 2021 116 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Lasse Abraham Rasmussen, Jes Vollertsen Lucian Iordachescu, Lasse Abraham Rasmussen, Lasse Abraham Rasmussen, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lasse Abraham Rasmussen, Lucian Iordachescu, Lasse Abraham Rasmussen, Lucian Iordachescu, Lasse Abraham Rasmussen, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Susanne Tumlin, Susanne Tumlin, Susanne Tumlin, Susanne Tumlin, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Lucian Iordachescu, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Lucian Iordachescu, Jes Vollertsen Jes Vollertsen Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Lucian Iordachescu, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Lucian Iordachescu, Jes Vollertsen Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Lucian Iordachescu, Jes Vollertsen Jes Vollertsen Lucian Iordachescu, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen

Summary

Researchers conducted a complete plastic mass balance at a large Swedish wastewater treatment plant covering macro- and microplastics across all process stages, finding that macroplastics — retained at bar screens — contributed more total plastic mass than microplastics, challenging the dominant focus on fine particles.

Study Type Environmental

A complete plastic particle mass balance was established at Sweden's second-largest wastewater treatment plant. It comprised material collected at its two bar screens, a 20 mm and a 2 mm one, in the influent water after the 20 mm screen, the effluent water, and the digested sludge. Macro- and microplastics above 500 µm were analysed individually applying ATR-FTIR, while microplastics of 10-500 µm were analysed by µFTIR imaging with automated particle recognition. Masses of plastics >500 µm were determined by weighting, while the mass of the smaller microplastics was estimated from the imaging. The total plastic load on the plant was 202.2 kg d, of which the two screens retained 73%. The remaining plastic mass was found in the sludge (13.6%) and the effluent (0.4%). The missing 12.7% could be caused by sampling and measuring uncertainties and potentially also fragmentation below the size detection limit of the analytical approach, or by degradation. The bar screens furthermore retained plastics smaller than the screen size, indicating that this material should be taken into account also when solely looking at smaller particles. The overall treatment efficiency of the plant was high: 99.6% considering both macro- and microplastics, and 98.8% considering only microplastics <500 µm.

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