Abstract
Chemically enhanced primary sedimentation (CEPS) using titanium coagulants could produce the Ti-loaded sludge with promising material recycle and utilization options. This study investigated two approaches for the recovery and utilization of Ti-based CEPS sludge: (1) a current technology of sludge calcination in the absence of N2 atmosphere to transform Ti to carbon-doped TiO2 (C–TiO2, with a low C content) as a photocatalyst, and (2) a prospective technology of carbonization of the sludge in the presence of N2 atmosphere to produce C–TiO2 (high C content) as an adsorbent. Both approaches can be applied for the recycle and utilization of the materials of the Ti-based CEPS sludge. Calcination at 400–800 °C led to the predominant anatase-TiO2 formation (spherical granules with particle size of around 20–25 nm), while rutile crystal phase appeared at 900 °C. The as-obtained C–TiO2 performed effectively for the adsorption or photocatalytic degradation of rhodamine B (RB) and methyl orange (MO), as the model pollutants, in wastewater treatment. The C–TiO2 with rich activated carbon content (20.0–38.3%, functioned as adsorbents) achieved high-efficient RB and MO adsorption by up to 98% in 20 min, while the C–TiO2 with low activated carbon content (1.5–12.6%, functioned as photocatalysts) degraded 99.6% of RB and 97.0% of MO from initial 20 mg/L in 210 min by photocatalytic degradation under UV illumination.
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