Valorization of Field‐Spent Granular Activated Carbon as Heterogeneous Ozonation Catalyst for Water Treatment

A cost-effective strategy for the valorization of field-spent granular activated carbon is developed by thermally controlled treatments. The carbon exhibits superior ozonation catalytic activity and stability for pollutant degradation and disinfection by-product minimization (trihalomethanes and haloacetic acids) in water. The generated singlet oxygen is the oxidant that interacts with the catalyst and promotes the oxidation reactions.

Abstract

Developing sustainable cost-effective strategies for valorization of field-spent granular activated carbon (s-GAC) from industrial water treatment has gained much interest. Here, we report a cost-effective strategy for the regeneration of s-GAC as an adsorbent in a large-scale drinking water treatment plant and used as an efficient and durable ozonation catalyst in water. To achieve this, a series of samples is prepared by subjecting s-GAC to thermally controlled combustion treatments with and without pyrolysis. The catalytic performance of the optimized sample is evaluated for oxalic acid degradation as the model pollutant under batch (>15 h) and continuous flow operations (>200 h). The partially deactivated catalyst upon reuse is restored by thermal treatment. Electron paramagnetic resonance and selective quenching experiments show the formation of singlet oxygen (¹O₂) during catalytic ozonation. The GAC-ozonation catalyst is efficient to minimize the formation of chlorinated disinfection by-products like trihalomethanes and haloacetic acids in an urban wastewater effluent.

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