Remoção de surfactantes e nutrientes de água cinza em wetlands construídos sob diferentes condições hidráulicas

Abstract

The search for sustainable solutions for wastewater treatment has driven the adoption of nature-based technologies, such as constructed wetlands, systems recognized for their efficiency in pollutant removal, in addition to presenting a combination of simple techniques, without requiring high operational skills and high energy and maintenance costs for operation. This study aimed to optimize the efficiency of the EvaTAC (Evapotranspiration and Greywater Treatment) system in the removal of surfactants, nutrients and other pollutants from laundry graywater operated under different hydraulic configurations and conducted on a pilot scale. Modifications in the saturation level and in the system feeding method were tested. Physical-chemical parameters were analyzed, in addition to the removal of chemical oxygen demand (COD), anionic and nonionic surfactants and the nutrients total nitrogen (TN) and total phosphorus (TP). The influence of hydraulic changes on the system efficiency is noted with the greater removal of COD (86%), nonionic surfactants (98%) and PT (23%), observed in the T3 test. Changing the feed flow to vertical in the constructed wetland (T3) contributed to reducing the COD concentration to 44.1 mg.L-1, the non-ionic surfactants concentration to below 0.1 mg.L-1 and the PT concentration to 0.3 mg.L-1. The initial configuration, with a subsurface horizontal flow constructed wetland, proved to be more efficient for the removal of NT (94%) and anionic surfactants (93%), reducing the concentrations to 1.3 mg.L-1 and 2.5 mg.L-1, respectively. The pH parameter varied throughout the treatment, while the turbidity and the total suspended solids (TSS) concentration were significantly reduced in T3 (97%), reaching 1.5 mg.L-1 for TSS. Therefore, the variation of hydraulic configurations has the capacity to optimize treatment processes in systems such as EvaTAC.