Turbidity and COD Removal from Municipal Wastewater Using a TiO2 Photocatalyst—A Comparative Study of UV and Visible Light

Abstract: Water resources are depleting, and the availability and supply of clean, potable water are a global concern. Advanced oxidation processes (AOPs) possess immense prospects in water and wastewater treatment settings. This study investigated and optimized the photocatalytic treatment of wastewater using titanium dioxide (TiO2) as the photocatalyst. The one-factor-at-a-time (OFAT) technique was employed to evaluate the effects of reaction time (20–100 min), mixing speed (20–100 rpm), and catalyst load (0.3–1.5 g/L… Show more

“…The supernatant obtained after centrifugation at the lowest overload of rcf 1000 was characterized by a turbidity of approximately 150 NTU. In comparison, values of 300 NTU and higher were recorded for raw municipal wastewater [ 36 ]. Increasing the overload and centrifugation time resulted in a systematic reduction of turbidity to 89 NTU (9000 rcf, 1 min) and 68 NTU (9000 rcf, 2 min).…”

Possibilities of Managing Waste Iron Sorbent FFH after CO2 Capture as an Element of a Circular Economy

“…The supernatant obtained after centrifugation at the lowest overload of rcf 1000 was characterized by a turbidity of approximately 150 NTU. In comparison, values of 300 NTU and higher were recorded for raw municipal wastewater [ 36 ]. Increasing the overload and centrifugation time resulted in a systematic reduction of turbidity to 89 NTU (9000 rcf, 1 min) and 68 NTU (9000 rcf, 2 min).…”

Possibilities of Managing Waste Iron Sorbent FFH after CO2 Capture as an Element of a Circular Economy

Integration of photocatalytic persulfate system with nanofiltration for the treatment of textile dye at pilot scale: Statistical optimization through chemometric and ridge analysis

Innovative grey water treatment using eco-friendly bio-photocatalyst AgCuFe2O4@chitosan in the presence of synergistic effects of persulfate activation: optimization and mechanisms