Water Science and Technology (Feb 2024)
A modified integrated physical advanced primary treatment to enhance particulate organic carbon removal in municipal wastewater treatment plants
Abstract
In the pursuit of a treatment approach that is both cost-effective and environmental-friendly, the applicability of microscreen (MS) techniques coupled with a primary sedimentation tank (PST) as a physical advanced primary treatment (APT) to enhance the removal of particulate organic carbon (POC) from municipal wastewater was investigated. A pilot unit, including a modified MS, adjustable to different meshes (including 20 and 15 μm) was operated continuously downstream to the PST at the Büsnau wastewater treatment plant in Stuttgart, Germany, and monitored for more than half a year. A strategy involving time-dependent backwashing and recirculation of MS permeate was employed to remove as much POC as possible from primarily treated wastewater, thereby extending the application of the MS. The optimal configuration, PST + 15-μm MS, achieved maximum removal efficiencies of 90% for turbidity, 90% for total suspended solids (TSS), and 80% for total chemical oxygen demand (TCOD). These results are significant, as comparable removal levels for these parameters were conventionally achieved using less eco-friendly methods such as physiochemical APT, including coagulation–flocculation with iron or aluminum salts followed by microscreening or sedimentation. However, this study's findings ascertained that solo physical APT applications could produce equivalent effluent quality with a much smaller footprint while keeping the advanced primary treated wastewater suitable for biological treatment. HIGHLIGHTS Applied APT demonstrated exceptional wastewater constituents removal efficiencies up to 90%.; APT achieved equivalent effluent quality with a substantially smaller environmental footprint, contributing to the advancement of sustainable water treatment practices.; The APT was shown to be integratable into existing wastewater treatment processes while preserving the effluent quality for subsequent treatment stages.;
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